Pos(ICRC2015)1236

PoS(ICRC2015)1236

PoS(ICRC2015)1236

Tracy Slatyer Pierre Sokolsky Roberta Sparvoli Tim Tait Masahiro Teshima Shoji Torii Nick Van Eijndhoven Scott Wakely Christoph Weniger Sylvie Rosier-Lees Gavin Rowell Roberto Ruiz de Austri Dorothea Samtleben Piera Sapienza

Institute of High Energy Physics, China High Institute of Science and Norwegian University of Norway Technology, UK London, University College Moscow State University, Russia Lomonosov Italy INAF/Arcetri Astrophysical Observatory, Sweden University, Stockholm France Diderot, University Paris National Institute for Subatomic Physics Physics for Subatomic Institute National NijmegenRadboud University Physics for Subatomic National Institute Amsterdam University of Physics for Subatomic National Institute Groningen University of Amsterdam University of Amsterdam University of Physics for Subatomic National Institute and Technology European Space Research Centre Aart Heijboer Aart Heijboer Jörg Hörandel Paul Kooijman Olaf Scholten Jacco Vink Christoph Weniger Peter Wenzel Zhen Cao Michael Kachelriess Ryan Nichol Mikhail Panasyuk Pasquale Blasi Joakim Edsjö Pierre Binetruy

Organisation Richard Marsden Julie McEnery Paolo Privitera Vladimir Ptuskin Peter Gorham Sunil Gupta Jim Hinton Kara Hoffman Dan Hooper Per Olof Hulth Uli Katz Berndt Klecker Rafael Lang David Lario Olga Malandraki

Local Organising Committee Committee Local Organising

International Scientific Program Committee Scientific Program Committee International

IUPAP commission for Astroparticle Physics (C4)

University of Wuppertal, Germany Germany Wuppertal, University of Jagiellonian University, Poland Jagiellonian Netherlands Maryland, USA University of and Engineering, Japan Nijmegen, the Radboud University North West University, South Africa North West University, of Science Institute University, Ritsumeikan Tata Institute of Fundamental Research, India Tata Institute Netherlands Institute for Space Research Netherlands Institute for Radboud University NijmegenRadboud University Physics for Subatomic National Institute University of Amsterdam University of Leiden University University of Amsterdam Amsterdam University of Physics for Subatomic National Institute National Institute for Subatomic Physics for Subatomic National Institute University of Groningen of University

Jan-Willem den Herder Sijbrand de Jong Sijbrand de Alexey Boyarsky Gianfranco Bertone Gianfranco Bertone Arjen van Rijn, Treasurer David Berge Ad M. van denAd M. van Chairperson Berg, Michal Ostrowski Eun-Suk Seo Jörg Hörandel Masaki Mori Mori Masaki Sunil K. Gupta, Vice-chair Sunil K. Gupta, Vice-chair R. Adriaan Burger, Secretary Karl-Heinz Kampert, Chair Stefano Gabici Piera Ghia Roelf Du Troit Stauss Lucy Fortson Masaki Fukushima Mihir Desai Brenda Dingus Fiorenza Donato Paschal Coyle Paschal Coyle Pino Elisabete Dal Silvia Dalla Galina Bazilevskaya Galina Bazilevskaya Rolf Bütikofer Jin Chang Laura Baudis

PoS(ICRC2015)1236

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PoS(ICRC2015)1236 ivers ivers R R rplan rplan o o Flo PoS(ICRC2015)1236

ULRICH, Ralf Matthias Matthias Ralf ULRICH, CAFAGNA, Francesco Francesco CAFAGNA, CAHUANTZI, RODRIGUEZ Mario Edward HERVE, Alexander KAMPERT, Karl-Heinz KAMPERT, Karl-Heinz FIORINO, Daniel CHIAVASSA, Andrea giuseppe DI SCIASCIO,

Groningen POPPEMA, Sibrand

with IceCube and HAWC HAWC and IceCube with Carlos DIAZ VELEZ, Juan

ions Using IceCube and IceTop and IceTop Using IceCube ions Stefan WESTERHOFF, t Sources in IceTop in IceTop t Sources Michael SUTHERLAND, ment with LHC beam for astroparticle astroparticle for beam ment with LHC smic ray events with ALICE at the ray events smic anisotropy rays with in cosmic for proton-proton cross section section cross proton-proton for ctions measured by NA61/SHINE for by NA61/SHINE measured ctions the large scale anisotropies with the with scale anisotropies the large he Arrival Direction Distribution of TeV Distribution he Arrival Direction

World Forum Theater (09:00-10:30) Theater World Forum ident of the University of ident Chair of the IUPAP commission for Astroparticle commission for Astroparticle Chair of the IUPAP physics physics with H.E.S.S. 253 galaxy NGC the starburst [696] Revisiting Clemens HOISCHEN, [1108] The impact of a fixed-target experi [1108] The impact modified EPOS Model and pion interactions Development, [803] Air Shower PIEROG, Tanguy [655] The TOTEM experiment at LHC experiment [655] The TOTEM measurements. multiplicity co [1196] Study of high muon CERN Large Hadron Collider intera from pion-carbon [779] Results showers of extensive air better understanding [304] Status of the LHCf experiment [304] Status of the LHCf experiment ITO, Yoshitaka [458] A study of the first harmonic of [458] A study of the first harmonic of KASCADE-Grande experiment [524] Measurement of (p+He)-induced ARGO-YBJ [221] Search for High Energy Neutron Poin Neutron High Energy for [221] Search Anisotropy Cosmic-Ray Analysis of [1342] Full-Sky in t of Anisotropy [147] Observation [390] Anisotropy in Cosmic Ray Arrival Direct [390] Anisotropy in Cosmic With HAWC Rays Cosmic [1400] Address from the [1400] Address from the Pres [1401] Address from Ceremony and Awards [1402] Prizes [1403] Welcome by the Chair of the ICRC 2015 2015 of the ICRC Chair by the [1403] Welcome Physics (C4). Ad DEN BERG, VAN

11:00 11:00 12:15 12:15 12:00 12:00 11:30 11:30 11:45 11:15 11:15 11:00 11:00 12:15 12:15 12:00 12:00 11:45 11:45 11:15 11:15 11:30 11:00 11:00 09:25 09:25 09:40 09:10 09:10 09:00 09:00

time [id] title presenter

Parallel GA01 EGAL - Yangtze 1 (11:00-12:30)

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Parallel CR02 Hadr Int - Yangtze 2 (11:00-12:30) Parallel CR02 Hadr Int - Yangtze

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Parallel CR01 Aniso (11:00-12:30) - World Forum Theater

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Opening, Prizes and Awards Prizes and Opening, -

Thursday 30 July 2015 30 July Thursday

PoS(ICRC2015)1236 DELIGNY, Olivier AL SAMARAI, Imen BRUNO, Alessandro DESAI, Mihir HAYASHIDA, MasaakiHAYASHIDA, SANTANDER, Marcos MA, Lingling ZHOU, Hao Benjamin CONDON, Gerd PUEHLHOFER, COLOGNA, Gabriele Gabriele COLOGNA,

mma-ray sky sky mma-ray VACCA, Valentina t in TeV gamma-rays t in TeV gamma-rays Ira JUNG-RICHARDT,

ar scales in the arrival directions of directions in the arrival scales ar ents observed with SOHO/ERNE with SOHO/ERNE ents observed Amjad AL-SAWAD, from Geminga by HAWC from Geminga Joshua WOOD, Energetic Particles Particles Energetic VON ROSENVINGE, Tycho

high energy with the new Fermi-LAT with the new Fermi-LAT high energy shells in the Galactic plane with plane in the Galactic shells Directions of Cosmic Rays Detected at at Detected of Cosmic Rays Directions r relativistic particles particles r relativistic Leon KOCHAROV, Plane with HAWC and Joint Analysis of Analysis of Joint Plane with HAWC and E EVENTS: TRAJECTORY ANALYSIS ANALYSIS E EVENTS: TRAJECTORY Ion Spectra in Large Gradual Solar Gradual Ion Spectra in Large Events) CHRISTIAN, Eric gamma-ray emission from a hard-X-ray from a hard-X-ray emission gamma-ray Mrk$\,$501 during the 2012 and 2014 flaring flaring 2014 and 2012 the during Mrk$\,$501 ved, and Decomposed Fermi ga Decomposed ved, and [1065] Large-Scale Distribution of Arrival Distribution [1065] Large-Scale eV Array above $10^{19}$ and the Telescope Observatory the Pierre Auger at large angul of anisotropy [970] Indications Observatory Pierre Auger at the rays detected cosmic [1248] Unseen GLEs (Ground Level GLEs (Ground [1248] Unseen AND FLUX RECONSTRUCTION WITH PAMELA WITH RECONSTRUCTION AND FLUX of Heavy [558] Systematic Behavior Particle Events Energetic ev of 90-MeV proton [915] A statistical study [799] The Longitudinal Distribution of Solar [799] The Longitudinal of sola multiple sources [118] Resolving [516] SOLAR ENERGETIC PARTICL [1299] Search for new supernova remnant supernova [1299] Search for new H.E.S.S. [737] TeV Observations of the Galactic the Galactic of [737] TeV Observations remnan supernova - A shell-type 86 [1268] RCW at SNR viewed an extended [423] RCW 86 [849] Study of the diffuse gamma ray emission from the Galactic plane with plane Galactic from the emission [849] Study of the diffuse gamma ray ARGO-YBJ Observed Emission [247] TeV Gamma-Ray GeV Data from Fermi event reconstruction Pass 8 [680] AMON Searches for Jointly-Emitting Neutrino + Gamma-Ray Transients Transients + Gamma-Ray Neutrino Jointly-Emitting for Searches [680] AMON Azadeh KEIVANI, [59] Discovery of very-high-energy of very-high-energy [59] Discovery RX J1136.5+6737 bright HBL Deconvol [602] The Denoised, with IceCube associated emission for TeV gamma-ray [675] Searching VERITAS using neutrinos high-energy [547] Spectral characteristics of characteristics Spectral [547] states

14:15 14:15 14:00 14:00 12:15 12:15 12:00 12:00 11:45 11:45 11:15 11:15 11:30 11:00 11:00 12:15 12:15 12:00 12:00 11:30 11:30 11:45 11:15 11:15 11:00 11:00 12:15 12:15 11:45 11:45 12:00 11:30 11:30 11:15 11:15

time [id] title presenter

Parallel CR03 Aniso - World Forum Theater (14:00-15:30)

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(11:00-12:30) Parallel SH01 - Mississippi

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Parallel GA02 GAL - Amazon (11:00-12:30) Parallel GA02

PoS(ICRC2015)1236 ESA GREUS, Francisco KSENOFONTOV, Leonid Yayoi TOMONO, KLEPSER, Stefan ZANIN, Roberta Josefa SAGAWA, HiroyukiSAGAWA, Igor TKACHEV, KAWATA, Kazumasa HE, Haoning RAMEEZ, Mohamed Mathieu CHRÉTIEN, SAKO, Takashi AUBLIN, JulienAUBLIN, dark matter data TAKEDA, Atsushi

Current Implementation Kai MARTENS, the ANTARES neutrino telescope telescope neutrino the ANTARES TÖNNIS, Christoph

Early HAWC Data Early HAWC SAL of the Crab Nebula Nebula of the Crab Kevin MEAGHER,

tion from observations of the Vela of tion from observations TeV from the Crab Nebula using the Nebula TeV from the Crab of Ultra-High-Energy Cosmic Rays at Rays Cosmic of Ultra-High-Energy ough the MAGIC glasses glasses ough the MAGIC BECERRA GONZALEZ, om AGNs with ultra-fast-outflows as as ultra-fast-outflows om AGNs with ons in the Sun using the completed the completed using in the Sun ons Hotspot Observed with the Telescope with the Telescope Hotspot Observed energy cosmic rays detected with the with the detected rays cosmic energy ed Gamma-Ray Emission of Supernova of Supernova Emission ed Gamma-Ray volume analysis of the XMASS-I volume analysis of the d status of the XENON program the XENON of d status MASBOU, Julien [113] Re-examination of the Expect [113] Re-examination 1987A SN Remnant fr emission for gamma-ray [242] Search cosmic-ray accelerators candidate thr Quasars [1220] Flat Spectrum Radio [348] Observations of the Crab Nebula with Crab Nebula of the [348] Observations [707] Six years of VERITAS observations Compton inverse the Crab nebula of measurements precise [940] The most component spectral [635] A Population of TeV Pulsar Wind Nebulae in the H.E.S.S. Galactic in the Plane Nebulae Wind [635] A Population of TeV Pulsar Survey above 100 rays for gamma [953] Search [563] Constraining photon dispersion rela dispersion photon [563] Constraining H.E.S.S with pulsar muon detector the 100 m2 and array Tibet air shower [878] The DAMIC dark matter experiment experiment dark matter [878] The DAMIC annihilati Matter Dark for [320] Search with for dark matter search [243] The indirect NETO, Joao DE MELLO [336] Recent results an results [336] Recent Experimental Program and its [442] The XMASS the fiducial from [949] Results telescope. IceCube neutrino [747] The Possible Extragalactic Source Extragalactic [747] The Possible [765] TA Anisotropy Summary Anisotropy Summary [765] TA Cosmic-Ray [414] Ultra-High-Energy Array Surface Detectors the Telescope Array Hotspot TINYAKOV, Peter [650] Arrival directions of the highest- of Arrival directions [650] Pierre Auger Observatory Observatory Pierre Auger

14:15 14:15 14:30 14:00 14:00 15:00 15:00 15:15 14:45 14:45 14:30 14:30 14:15 14:15 14:00 14:00 15:15 15:15 14:45 14:45 15:00 14:15 14:15 14:30 14:00 14:00 15:15 15:15 15:00 15:00 14:45 14:45 14:30 14:30

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Parallel GA04 - Mississippi (14:00-15:30)

time [id] title presenter Parallel GA03 Pulsars - Amazon (14:00-15:30) Parallel GA03 Pulsars - Amazon

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Parallel DM01 - Yangtze 2 (14:00-15:30) Parallel DM01

PoS(ICRC2015)1236 186 186 184 184 242 242 153 206 154 155 189 156 208 190 238 203 142 VANDENBROUCKE, Justin Justin VANDENBROUCKE, NAKAMORI, TakeshiNAKAMORI, GILLER, Maria GILLER, Maria SIBATOV, Renat SIBATOV, Renat JAVAID, Amir TAUTAYEV, Yernar AKAIKE, Yosui NOVOTNY, Vladimir SARMENTO, Raul Dennis SOLDIN, KOBZAR, Oleh Monica NUNES, Richard ENGEL, Ralph SCHULZ, Johannes DIOGO, Francisco DIOGO, Francisco PÖSCHL, Thomas 3946 3946 

CTIC RIDGE EMISSION Antonio MARINELLI,

om hadronic models of AGN? of AGN? models om hadronic REIMER, Anita Array observation of RX J1713.7 Array observation es and Radio Constraints es and Radio Fabio ZANDANEL, sitron Excess with the Cherenkov with the Cherenkov sitron Excess in the Galactic Center Center Galactic in the Lea JOUVIN, omagnetic longitudinal shower profile shower profile longitudinal omagnetic Detector for Space Applications Detector Space Applications for COMPARISON WITH RECENT COMPARISON WITH RECENT and lateral distributions of electrons of electrons lateral distributions and Calibration Confirmed Using CERN- Confirmed Calibration r refinement of particle trajectory r refinement of particle he Auger Engineering Radio Array Radio Array Engineering he Auger

Transport Approach Transport Approach

[733] On the neutrino emission from BL Lacs from emission [733] On the neutrino in IceCube of GRB blast wave neutrinos [100] Detectability THE GALA FOR SCENARIO [1010] A HADRONIC YANG, Lili Maria PETROPOULOU, [583] Photon-neutrino flux correlations fr flux correlations [583] Photon-neutrino of Galaxi from Clusters [55] Neutrinos rays of the cosmic and the origin [34] Neutrinos Walter WINTER, [736] Prospects for Measuring the Po the for Measuring [736] Prospects Telescope Array [1188] Origin of cosmic rays excess rays excess of cosmic Origin [1188] Telescope Cherenkov [629] Simulating multiple scattering allowing for energy losses losses for energy allowing scattering multiple

[679] Status and Prospects of t [679] Status and Prospects [1097] Zenithal dependence of muon intensity of muon intensity dependence [1097] Zenithal Sibyll of the event generator version [1313] A new [287] High $p_\mathrm{T}$ muons from cosmic ray air showers in IceCube IceCube in showers ray air cosmic muons from [287] High $p_\mathrm{T}$ A Virgo from Propagation UHECR on Fields of Magnetic [521] The Influence [495] A branching model for hadronic air showers showers air for hadronic model [495] A branching (MARTA) Air showers Tagging RPCs for with [810] Muon Array [499] A Novel CubeSat-Sized Antiproton Antiproton [499] A Novel CubeSat-Sized [133] A Look at the Cosmic Ray Anisotropy with the Nonlocal with the Nonlocal at the Cosmic Ray Anisotropy [133] A Look Relativistic [667] Simulations for CALET Energy CALET [667] Simulations for reconstructionCALET in RAY COSMIC IN ION INTERACTIONS AND LIGHT [211] PROTON IN EXPERIMENT ”STRATOSPHERE” COLLIDER RESULTS SPS Beam Tests [669] Use of the ‘Kriging method’ fo [669] Use of the ‘Kriging [1143] Measurement of the average electr [1143] Measurement of the angular [215] On the correlation at the Pierre Auger Observatory Observatory Auger at the Pierre after 15:00 15:00 15:15 14:45 14:45 14:15 14:15 14:30 14:00 14:00 15:15 15:15 14:45 14:45 15:00

[id] title [id] title presenter board Poster 1 CR - Amazon Foyer (15:30-16:30)

Poster 1 - (15:30-16:30)

time [id] title presenter Parallel NU01 - Yangtze 1 (14:00-15:30) Parallel NU01

PoS(ICRC2015)1236 157 157 234 179 179 165 165 158 149 237 205 246 147 160 161 231 209 170 241 162 163 220 220 177 183 146 215 210 NONAKA, Toshiyuki NAOYA, INOUE ASAOKA, Yoichi BERGMAN, Douglas Flint Brian RAUCH, Rostislav KOKOULIN, PANDYA, Hershal DEMBINSKI, Hans Peter QIN, Xiaoting Christian SARMIENTO-CANO, BRAY, Justin YAMAMOTO, Tokonatsu Jörg HÖRANDEL, Brian WUNDHEILER, TAUTAYEV, Yernar BAUS, Colin WANG, Chong MAZZIOTTA, Mario Nicola FUJII, Toshihiro ASSIS, Pedro VOLODICHEV, Nikolay KRIZMANIC, John PIMENTA, Mario MENN, Wolfgang ition of Ultra-High Energy Cosmic Cosmic Energy Ultra-High of ition ov detector response to inclined to inclined response ov detector Heavy and Ultra-Heavy Cosmic Cosmic Ultra-Heavy Heavy and atus of Muon Detectors in the Detectors atus of Muon Depth in Cosmic Ray Air Showers Ray Air Showers Depth in Cosmic ons in the interaction of cosmic-ray cosmic-ray of in the interaction ons OPIC COMPOSITION OF HYDROGEN HYDROGEN OF OPIC COMPOSITION y cosmic rays with rays with y cosmic the FLUKA code CALET Operations Center (WCOC) Center Operations CALET ensity of muon bundles detected at the detected of muon bundles ensity EAS Particles Observed with the of muon measurements on the on the measurements of muon opic microwave radiation from electron beam in beam electron from radiation microwave opic Array Surface Detectors Detectors Surface Array Array Experiment Experiment Array

Scientific Operations Operations of CALET Scientific

[1335] In-flight operations and status of the AMS-02 silicon tracker tracker silicon of the AMS-02 status and operations [1335] In-flight Project Array of the LAGO [1238] The Guane [1138] Hadronic interactions of primar interactions [1138] Hadronic with IceTop MasterClass for the IceCube Module [365] An IceTop [1012] Studies on Time Profiles of Telescope [369] Measuring the Muon Production Production the Muon [369] Measuring [918] Seasonal variations in the int variations [918] Seasonal [1018] Performance and Operational St [1018] Performance and Operational [837] The NICHE Array: status and plans plans Array: status and [837] The NICHE of CALET Measurements [790] Predicted Nuclei Ray Telescope level ground [833] LHAASO-WFCTA Optical System Optimization for High Precision for High Optimization [833] LHAASO-WFCTA Optical System Reconstruction Shower Cherenkov [1328] Inelastic and diffractive cross section measurements with the measurements section cross and diffractive [1328] Inelastic CMS experiment [195] Investigation of angular distributi of angular [195] Investigation [594] Development of the Waseda of the Waseda [594] Development for of the Large with data and comparison target with a dense particles Hadron Collider. [1085] Calibration of the LOFAR antennas of the LOFAR antennas [1085] Calibration an array with distribution muon lateral the [1083] A method for reconstructing resolution with time counters of segmented [419] Search for isotr for [419] Search the atmosphere [533] The lunar Askaryan technique: a technical roadmap roadmap a technical technique: Askaryan [533] The lunar determination of the cosmic ray composition using a new fast simulation simulation a new fast using ray composition of the cosmic determination THE ISOT OF [378] MEASUREMENT WITH THE COSMIC RAYS IN NUCLEI AND HELIUM PAMELA-EXPERIMENT [537] The study on the potential [537] The study [124] Neutrons produced by the Earth’s crust due to Lunar and Solar tides tides Solar and due to Lunar the Earth’s crust by produced [124] Neutrons of Performance Measurement Composition Ray Nuclear [57] The Cosmic Array (NICHE) CHErenkov the Non-Imaging [712] Measurement of the water-Cherenk of the [712] Measurement [714] Energy Spectrum and Mass Compos and Spectrum Energy [714] a Using Detector Fluorescence Array with the Telescope Rays Measured Analysis Monocular an RPC hodoscope using muons

PoS(ICRC2015)1236 136 136 182 148 249 249 212 217 217 228 228 168 168 229 229 214 166 167 233 211 169 159 232 192 219 164 164 247 248 224 230 213 POHL, Martin OGIO, Shoichi KAMPERT, Karl-Heinz COTZOMI, Jorge OBERMEIER, Andreas KARELIN, Alexander KARELIN, Alexander KOKOULIN, Rostislav Rostislav KOKOULIN, KAMPERT, Karl-Heinz NAKAMURA, Yoshiaki HAYASHI, Motoki VARGAS, Stephany Mikhail AMELCHAKOV, DESIATI, Paolo FUJII, TOSHIHIRO STROMAN, Thomas Thomas STROMAN, TAMEDA, Yuichiro BRUNO, Alessandro PETERS, Christine BROGI, Paolo NONAKA, Toshiyuki MORI, NicolaMORI, Paul Jon LUNDQUIST, Jon Paul LUNDQUIST, RICCI, Marco IKEDA, Daisuke HANLON, William BRUNO, Alessandro ition of Ultra-High Energy Cosmic Cosmic Energy of Ultra-High ition ay helium with the TRD of AMS-02 helium with the TRD of AMS-02 ay High Energy Cosmic Ray Spectrum in Ray Spectrum Cosmic Energy High cosmic rays at TeV and PeV energies energies TeV and PeV rays at cosmic cosmic ray observed by the Tibet Air ray observed cosmic detector using a flying standard light flying standard a using detector AMD for the determination of the ensive air showers showers ensive air cosmic nuclei: expected cosmic nuclei: expected calorimeter for direct detection of cosmic rays rays cosmic of detection for direct calorimeter ENERGETIC PARTICLE EVENTS the Cherenkov radiation of EAS the Cherenkov radiation he Pierre Auger Observatory he Pierre Auger Observatory LE Surface Detector Array LE Surface Detector ectra of electron and muon EAS components in ectra of electron and muon EAS components measurement of ext measurement

NEVOD measured by PAMELA. measured

primary energy range from 10^14 to 10^18 eV 10^14 to 10^18 range from energy primary with the Pierre Monopoles Magnetic for Ultra-relativistic [704] Search Auger Observatory [859] Development of the TA [859] Development Ansiotropy Ray in Cosmic Fields Magnetic [656] Effects of Turbulent source for the Telescope Array observatory observatory Array Telescope for the source Peru Site in LAGO High Altitude of a [1327] Development [972] Local density sp [64] Understanding the anisotropy of the anisotropy [64] Understanding [1345] Calibration of a fluorescence of a fluorescence [1345] Calibration [452] Sidereal anisotropy of Galactic anisotropy of [452] Sidereal [1223] Development of a high efficient PMT Winston-cone system for system efficient PMT Winston-cone of a high [1223] Development fluorescence field magnetic solar during change asymmetry [573] The north-south reversal the IceCube experiment and experiment Shower [1226] Lightning Detection at t Detection [1226] Lightning [514] Measuring the energy of cosmic-r the energy [514] Measuring CUTOFF GEOMAGNETIC OF [517] PAMELA'S MEASUREMENT DURING SOLAR VARIATIONS [1004] Anisotropy search in the Ultra in search [1004] Anisotropy muon content in UHECRs muon content with measurements [510] CALET identification charge and of tracking performances detector surface Array the Telescope using Hemisphere the Northern [518] The muon detector prototype prototype detector [518] The muon [519] PAMELA'S MEASUREMENT OF GEOMAGNETICALLY TRAPPED TRAPPED GEOMAGNETICALLY OF [519] PAMELA'S MEASUREMENT AND ALBEDO PROTONS [906] Energy Spectrum and Mass Compos Spectrum and [906] Energy from composition of UHECR Array measurement [905] Telescope detection fluorescence stereoscopic [846] New upper limit on strange quark matter flux with the PAMELA matter flux with the quark limit on strange upper [846] New experiment space Array in Telescope by the hybrid technique Rays Measured [902] Cascade showers initiated by muons in the Cherenkov water water in the Cherenkov muons by initiated showers [902] Cascade detector [1333] Azimuthal asymmetry in asymmetry [1333] Azimuthal Telescope for Profile Track Finding Ray Shower [1332] Cosmic Detectors Array Fluorescence [1330] Study of UHECR Composition Using Telescope Array's Middle Middle Array's Telescope Using of UHECR Composition [1330] Study Mode Array in Hybrid and Surface Detector Drum [1137] CaloCube: a new-concept CaloCube: [1137] region PeV up to the

PoS(ICRC2015)1236 194 194 191 191 171 171 187 188 188 221 221 193 193 139 196 172 235 239 145 174 150 185 216 243 197 197 138 173 137 244 227

ÁK, Blahoslav ■ DELIGNY, Olivier MOTLOCH, Pavel BIGONGIARI, Gabriele Gabriele BIGONGIARI, PASTIR SABOUHI, Mohammad SABOUHI, Mohammad WUNDHEILER, Brian WUNDHEILER, KHOKHLOV, Semen KHOKHLOV, Semen MINAYA, Ignacio NAM, Jiwoo ALONSO, CARRAMIÑANA Alberto Sun ZHANDONG, KUMAR, Rahul Tobias WINCHEN, DIEGO, Tescaro DOMINGUEZ, Leonardo Leonardo DOMINGUEZ, SALINA, Gaetano BACHOLLE, Simon BRETZ, Thomas CAPDEVIELLE, Jean-Noël Jean-Noël CAPDEVIELLE, HAUNGS, Andreas TKACHEV, Leonid carlos MEDINA-HERNANDEZ, Sami CAROFF, YAMAZAKI, Katsuya in the arrival directions of cosmic directions in the arrival Rays in the Galaxy: Beyond the Dipole Beyond the Dipole in the Galaxy: Rays energy cosmic ray experiment ray experiment energy cosmic e the positron and electron fluxes fluxes electron the positron and e tric measurements of high energy of high energy measurements tric e Detector signals of the Pierre signals Detector e n generator GHOST for C R simulations C R simulations GHOST for n generator uorescence Detector calibration at calibration Detector uorescence the Pierre Auger Observatory: Observatory: the Pierre Auger he Telescope Array Hybrid Detector Detector Hybrid Array he Telescope he Pierre Auger Observatory for a Observatory he Pierre Auger he Pierre Auger Observatory using using Observatory he Pierre Auger for the variation of the UHECR of the UHECR variation for the adiowave Observatory for Geo- for Observatory adiowave ux of albedo muons with NEVOD- muons ux of albedo and Studies of the Lateral Distribution Function Function Distribution the Lateral of and Studies

based on beam test results results test on beam based

neutrino-induced showers. neutrino-induced

showers

[234] The effect of geomagnetic field on radio signal patterns from cosmic ray ray cosmic from patterns signal radio field on [234] The effect of geomagnetic air Performance Observatory rays at the Pierre Auger AMS-02 ray ions fluxes with cosmic [1206] Measuring [746] The AMIGA Muon Counters of Muon Counters [746] The AMIGA patterns dependent for energy [557] Search [152] LARGE-SCALE ANISOTROPY OF TeV-BAND COSMIC RAYS RAYS TeV-BAND COSMIC OF ANISOTROPY [152] LARGE-SCALE [883] Search for UHE Photons with t for UHE Photons [883] Search test [150] LHAASO-KM2A PMT DECOR experimental complex complex experimental DECOR Auger Observatory. (TAROGE) Emissions synchrotron Observatory of the Latin American Giant [1109] The Sites [1100] Taiwan Astroparticle R Astroparticle [1100] Taiwan [1037] Investigation of the fl [1037] Investigation the Surfac in [1103] Time asymmetries [960] FAMOUS - A fluorescence telescope using SiPMs using [960] FAMOUS - A fluorescence telescope the Pierre Auger Observatory Observatory the Pierre Auger expectations [966] Astrophysical sky across the composition [507] Automated procedures for the Fl procedures [507] Automated from ultra-high radio frequencies at radiation [227] Transition energy [758] Diffusion and Anisotropy of Cosmic of Cosmic and Anisotropy [758] Diffusion [750] Parallelization schemes for AIRES's Monte Carlo Carlo Monte for AIRES's schemes [750] Parallelization to measur method [1218] Experimental next generation ground-based ultra-high next generation ground-based electrons at t monitoring [751] Atmospheric Facility Laser Central the upgraded in AMS-02 [501] for CALET perspectives calorime [503] AugerNext: R&D studies at t R&D studies [503] AugerNext: simulation detector [658] The TUS orbital [1033] The multi-sources M. C. collisio multi-sources [1033] The [653] Modelling muon and neutron fluxes and spectra on the Earth's Earth's on the spectra and fluxes neutron and muon Modelling [653] rays cosmic by primary induced ground energies at LHC

PoS(ICRC2015)1236 140 140 240 240 141 226 226 225 175 175 143 143 204 200 178 201 223 176 195 222 218 144 245 207 207 198 236 180 181 151 199 199 TIMMERMANS, Charles Charles TIMMERMANS, ROTH, Markus Markus ROTH, BEATTY, James TOKUNO, Hisao Hisao TOKUNO, PUSTILNIK, Lev CARRAMIÑANA ALONSO, ALONSO, CARRAMIÑANA Alberto BERGMAN, Douglas Dennis CAZAR RAMÍREZ, GONZALEZ, Javier YASHIN, Igor FENG, Zhaoyang VITILLO, Stefania HILLER, Roman HILLER, Roman IVANOV, Anatoly DALKAROV, OLEG TAMURA, Tadahisa BALABIN, yury PIEROG, Tanguy PEREIRA, Luiz Augusto Stuani Stuani Augusto Luiz PEREIRA, KonstantinHERBST, TAKEISHI, Ryuji SHIN, Bokkyun Haran Hari BALAKRISHNAN, TER VEEN, Sander GRIMANI, Catia

tions of the Pierre Auger Observatory Observatory of the Pierre Auger tions ctors of the Pierre Auger Observatory Observatory Auger Pierre ctors of the om data collected in hybrid-trigger in hybrid-trigger collected om data Detectors with Electron Light Source Source Light Electron with Detectors ogenic Radionuclides due to Galactic to Galactic due Radionuclides ogenic ectors and additional muon counters counters muon and additional ectors ergy particle searches with LOFAR LOFAR with searches particle ergy mulation without Thinning in CORSIKA CORSIKA Thinning in mulation without rge water-Cherenkov Detectors at the Detectors rge water-Cherenkov tudinal profile widths as measured measured as widths profile tudinal arison between the Surface Detectors of Surface the between arison -SPS with the CALET Structure with the CALET Structure -SPS plitude scale of the Tunka Radio Tunka Radio scale of the plitude uon component at the mountain muon at the mountain muon component uon ty for GRAPES-3 simulations ty for GRAPES-3 measurements: on the origin of the e+ excess and of the e+ excess and on the origin measurements: Negra site of LAGO LAGO Negra site of

on magnetar birthrate birthrate on magnetar

d

[831] R&D of EAS radio detection in China EAS radio detection in China [831] R&D of Tracker AMS-02 Silicon with measurement charge [1221] Nuclei [683] Investigation of the energy deposit of inclined muon bundles in in bundles of inclined muon of the energy deposit [683] Investigation NEVOD water detector the Cherenkov [802] Ultra-High Energy Air Shower Si Energy Air Shower [802] Ultra-High using Muon with IceTop Composition Ray [806] Studying Cosmic Distributions Lateral and Electromagnetic [1190] Data Accessibility, Reproducibility and Trustworthiness with LAGO with LAGO and Trustworthiness Reproducibility [1190] Data Accessibility, Data Repositories [808] The distribution of shower longi of shower [808] The distribution [473] Education, Outreach and Public Rela and Public Outreach [473] Education, mode Array in stereo by Telescope [79] Cosmic-ray positron [79] Cosmic-ray positron in rays transport of cosmic of modelling software package [1241] New the atmospherethe [487] Heavy ion beam test at CERN [487] Heavy ion beam test limits [1150] ELLIPTIC FLOW in nuclear interaction of astroparticle at energy energy at of astroparticle interaction in nuclear [1150] ELLIPTIC FLOW eV. $10^{16}$ Extension (Tunka-Rex) Extension (Tunka-Rex) dete surface for the electronics [145] New directions of UHECR arrival uniformity for [140] Testing Model Thermal [1117] Improving the universality reconstruction using independent independent using the universality reconstruction [1117] Improving det of water-Cherenkov measurements Status of ultra high en [1294] NuMoon: [327] Calibration of the absolute am [327] Calibration [873] Results from the Telescope Array fr the Telescope from [873] Results of m effects [870] Meteorological dt t [44] CORSIKA modification for rigidity dependent primary selection based selection primary for rigidity dependent modification [44] CORSIKA on Geomagnetic cutoff rigidi [877] Calibration of the TA Fluorescence of the TA Fluorescence [877] Calibration [1054] Initial results of a direct comp of a [1054] Initial results of la sensitivity and [1191] Calibration [1051] Modelling the Production of Cosm Production the [1051] Modelling [235] ENERGY THRESHOLD DETERMINATION FOR AMIGA MUON MUON AMIGA FOR DETERMINATION THRESHOLD ENERGY [235] SIMULATION VIA GEANT4 COUNTERS Rays Cosmic and Solar Array Telescope and of the Observatory the Pierre Auger Sierra

Poster 1 DM and NU - Amazon Foyer Terrace (15:30-16:30)

PoS(ICRC2015)1236 291 291 278 278 288 288 283 283 273 273 251 251 275 275 265 293 279 286 281 289 276 255 290 257 285 282 272 272 292 274 252 260 253 284 256 271 262 CREUSOT, Alexandre Alexandre CREUSOT, BAAS, Vincent BUIS, Ernst-Jan ORII, Asato MASE, Keiichi DONG, Jianing Jianing DONG, CREUSOT, Alexandre Alexandre CREUSOT, PIATTELLI, Paolo KRINGS, Kai SHAYBONOV, Bair BOUWHUIS, Mieke ZHANG, Deliang Michael DUVERNOIS, Veronique VAN ELEWYCK, KOOIJMAN, Paul KOOIJMAN, SAIKIA, Julie PIATTELLI, Paolo Matteo SANGUINETI, SPARVOLI, Roberta SHAYBONOV, Bair SHAYBONOV, Michael DUVERNOIS, CLASSEN, Lew PENG, Wenxi VictorMARTIN-LOZANO, Chi WANG, SAPIENZA, Piera FEI, zhang HEBECKER, Dustin BHATTACHARYYA, Saptashwa Qualification Model of identification by using isolated isolated by using identification ts for fiber optical hydrophones in hydrophones ts for fiber optical s of the first detection unit of unit s of the first detection Tracker Detector of DAMPE satellite of DAMPE Detector Tracker d proton rejection capabilities of CALET CALET of capabilities rejection d proton sition system at Super-Kamiokande Super-Kamiokande sition system at a wavelength-shifting optical module module optical a wavelength-shifting the ANTARES neutrino telescope telescope neutrino the ANTARES lts of the KM3NeT prototypes prototypes of the KM3NeT lts Dark Matter Annihilation And Background And Background Dark Matter Annihilation r fast automatic testing of the r fast automatic testing onmental Tests and CERN Beam CERN Beam and Tests onmental and deployment procedure of the procedure and deployment Silicon Tungsten Tracker of DAMPE DAMPE of Tracker Silicon Tungsten the Askaryan Radio Array (ARA) (ARA) Array Radio the Askaryan Read-out Electronics of the Read-out Electronics ECAL of DAMPE

application for ultra-high energy neutrino detection detection neutrino energy for ultra-high application

nearby supernova bursts bursts supernova nearby ARAcalTA ARAcalTA

DAMPE BGO Calorimeter in Envir [1040] The Calibration Units of the KM3NeT Neutrino Telescope Telescope of the KM3NeT Neutrino Units [1040] The Calibration data acqui of new [1045] Development [481] Simulation studies of the expecte of [481] Simulation studies DAQ and Module Digital Optical IceCube [786] Generation-2 [488] Moon shadow observation with observation [488] Moon shadow for [1276] Time synchronization and time calibration in KM3NeT KM3NeT in and time calibration [1276] Time synchronization of the [168] Performance [1093] The optical module of the Baikal-GVD neutrino telescope telescope of the Baikal-GVD neutrino module [1093] The optical optical fiber on based telescope neutrino a for studies [671] Design hd h [184] A Precision Optical Calibration Module for IceCube-Gen2 IceCube-Gen2 for Module Calibration Optical [184] A Precision the KM3NeT neutrino telescope the telescope KM3NeT neutrino fo [1034] The Dark Box instrument KM3NeT for photomultipliers of Simulation [893] Self Consistent [937] Calibration, performances and test and performances [937] Calibration, [420] Development of the time domain simulation of impulsive radio signals signals radio simulation of impulsive of the time domain [420] Development for [451] Development of an automatic test system for the PMTs used in the PMTs used system for the test of an automatic [451] Development BGO KM3NeT detection unit. unit. KM3NeT detection of TRBs for Silicon [919] Development of [342] Progress on the development [43] GSL in Unified DE-DM Dominated LQC LQC Dominated [43] GSL in Unified DE-DM detector system of the KM3NeT acquisition [1298] The data [1310] The Mechanical structure [1310] The Mechanical [1127] Performances and main resu and [1127] Performances measuremen and design [497] Fiber laser bars with the DAMPE BGO calorimeter calorimeter DAMPE BGO bars with the KM3NeT for system positioning [1265] Acoustic their [1340] Isospin violating dark matter in Stückelberg portal scenarios scenarios portal in Stückelberg matter dark violating [1340] Isospin shower electromagnetic [312] A method of [743] Multi-PMT optical modules for IceCube-Gen2 IceCube-Gen2 for modules [743] Multi-PMT optical of the qualification [1145] Space [1166] Status and prospects for and prospects [1166] Status [1086] Time and amplitude calibration of the Baikal-GVD neutrino telescope telescope neutrino the Baikal-GVD of calibration amplitude and [1086] Time detector neutrino cosmogenic

[id] title [id] title presenter board

PoS(ICRC2015)1236 258 258 259 259 127 127 111 111 59 59 106 106 261 261 135 60 63 62 122 57 87 58 91 96 287 287 280 294 254 277 263 264 BARTELS, Richard BOUDAUD, Mathieu Mathieu BOUDAUD, PORTER, Troy PORTER, BOUCHET, Laurent Laurent BOUCHET, WEINSTEIN, Amanda WEINSTEIN, Amanda DOURNAUX, Jean-Laurent Jean-Laurent DOURNAUX, LOPEZ, marcos Lucy FORTSON, Heike PROKOPH, CERRUTI, Matteo WEINER, Ori SMITH, Andrew GOMEZ-VARGAS, German German GOMEZ-VARGAS, Michael ZACHARIAS, Silvia VERNETTO, HOLLER, Markus Marcos LÓPEZ MOYA, BRUIJN, R BRUIJN, R VAN EIJK, Daan StephanieWISSEL, LU, Lu TYKHONOV, Andrii BOSE, Debanjan ROTT, Carsten Satoshi TSUCHIDA, Satoshi TSUCHIDA,

Term Lower Flux State Observations Flux State Observations Term Lower ectral features from Kaluza-Klein from Kaluza-Klein ectral features ructure of the SST-2M GCT Telescope Telescope ructure of the SST-2M GCT tidal stripping on the subhalo luminosity luminosity on the subhalo tidal stripping on fraction and Fermi-LAT Extragalactic Extragalactic Fermi-LAT and on fraction uction software of the DAMPE gamma- software uction ission from the Geminga pulsar and and pulsar Geminga ission from the S.S. Using a Semi-Analytical Model Model a Semi-Analytical S.S. Using ure of Cygnus with the Cherenkov the Cherenkov with of Cygnus ure ns with the new MAGIC Sum-Trigger-II Sum-Trigger-II with the new MAGIC ns igh-energy gamma-ray emission of emission gamma-ray igh-energy emission distribution throughout the throughout distribution emission Reconstruction and Analysis and Reconstruction for calculating multi-wavelength multi-wavelength for calculating y sky above 30 TeV with LHAASO ppi Foyer (15:30-16:30) ppi Foyer Array emissions in galaxies galaxies in emissions

with INTEGRAL/SPI with INTEGRAL/SPI

the Cherenkov Telescope Array Array Telescope the Cherenkov

[946] A fussy revisitation of antiprotons as a tool for Dark Matter searches searches Matter a tool for Dark as antiprotons revisitation of [946] A fussy [397] HAWC: Design, Operation, [397] HAWC: Design, [102] Observation of the $^{26}Al$ [102] Observation [1202] A new time-dependent likelihood technique for detection of gamma- for detection technique likelihood time-dependent [1202] A new ray burstswith IACT arrays PKS 1440-389 of the first observatio [330] Analysis object the BL Lac of observations [764] VERITAS long-term (2006-2014) 1ES 0806+524 Galaxy [565] Photon Reconstruction for H.E. Reconstruction [565] Photon of very-h [1123] H.E.S.S. discovery [335] Exploring the gamma ra [335] Exploring the gamma [884] The FRaNKIE code: a tool [884] The FRaNKIE code: nebula with the MAGIC telescopes MAGIC telescopes with the nebula and 3C W Comae Sources: BL Lacertae of Intermediate-Frequency-Peaked St of the Mechanical [210] Performance for interstellar [322] Search for VHE gamma-ray em VHE gamma-ray for [322] Search of Long- Analyses [745] Multiwavelength [607] Time-dependent injection as a model for rapid blazar flares flares blazar for rapid a model as injection [607] Time-dependent [882] Creating a high-resolution pict a high-resolution [882] Creating $\gamma$-ray Background measurements with gravitino dark matter matter gravitino dark with measurements Background $\gamma$-ray Telescope [1274] Boosting the boost: the effect of the effect the boost: [1274] Boosting [368] Confronting recent AMS-02 positr [368] Confronting [539] The observability of gamma-ray sp [539] The observability ray telescope camera [687] PINGU matter in dark of Kaluza-Klein annihilation from spectrum [538] The electron halo the Galactic dark matter annihilation [384] Software framework and reconstr [384] Software framework [474] A dual-PMT optical module (D-Egg) for IceCube-Gen2 IceCube-Gen2 for (D-Egg) module optical [474] A dual-PMT [828] Site Characterization and Detector Development for the Greenland Greenland for the Development Detector and Characterization [828] Site Observatory Neutrino [968] The KM3NeT Multi-PMT Digital Optical Module Module Digital Optical Multi-PMT KM3NeT [968] The

[id] title [id] title presenter board

Poster 1 GA - Mississi

PoS(ICRC2015)1236 67 67 101 101 126 126 123 123 109 109 121 120 117 73 71 69 90 84 110 116 102 118 52 52 53 97 65 56 66 115 72

SKI, Piotr SKI, ■ DE PALMA, Francesco DAZZI, Francesco DAZZI, Francesco BANASI BEDNAREK, Wlodek LAFFON, Helene Helene LAFFON, Sebastian MUELLER, OYA, Igor LI, Huicai Mingjun CHEN, GAO, Bo WANG, Xiaojie WU, Hanrong YAO, Zhiguo YU, Chunxu ZHANG, Yi TAKAHASHI, Satoru MARX, Ramin MARX, Ramin Dorothee HILDEBRAND, Andrea DE FRANCO, XIANGLI, QIAN LIU CHENG, KIEDA, David Jean-FrancoisGLICENSTEIN, BANGALE, Priyadarshini GERARD, Lucie Lucie GERARD, SCHÜSSLER, Fabian Jean-FrancoisGLICENSTEIN, Anna FRANCKOWIAK, NEISE, Dominik Max Ludwig AHNEN, BEDNAREK, Wlodek KANG, Donghwa KASCADE-Grande ed region within the blazar jet during the blazar within ed region ons of the First Fermi-LAT SNR Catalog Catalog SNR ons of the First Fermi-LAT ntrol and Data Acquisition System of Acquisition Data ntrol and asurement for the LHAASO-WCDA with for the LHAASO-WCDA asurement stereoscopic Sum-Trigger-II of MAGIC of MAGIC Sum-Trigger-II stereoscopic gh-Energy Gamma-Ray Emission from Emission from gh-Energy Gamma-Ray -rays measured with -rays measured erenkov Telescope Array for surveys Array for surveys Telescope erenkov process onto millisecond pulsars process onto millisecond millisecond pulsar J1823-3021A pulsar millisecond

one year of operation operation of year one

[608] Performance studies of the new of the studies [608] Performance after [936] Simulation study on a large field of view cherenkov telescope telescope large field of view cherenkov [936] Simulation study on a status of the 2015 balloon- and An overview [427] GRAINE project: telescope gamma-ray with emulsion experiment borne quiet gamma-ray state state quiet gamma-ray signals muon the cosmic [186] High energy emission from extend emission [186] High energy [985] Water quality monitoring and me [506] Status and plans for the Array Co the Array for [506] Status and plans [523] FACT – Novel mirror alignment using Bokeh and enhancement of enhancement and Bokeh using alignment Novel mirror [523] FACT – method the VERITAS SCCAN alignment [1252] Constraining the properties of new gamma-ray MSPs with distance MSPs with distance gamma-ray of new the properties [1252] Constraining measurements and velocity Array Telescope the Cherenkov [313] HESS observations of PKS 1830-211 [313] HESS observations of PKS 1830-211 MAGIC M87 with study for the radio galaxy variability [541] Long term [798] Systematically characterizing regi [798] Systematically characterizing of Very Hi [731] VERITAS Discovery [1001] Long term stability analysis on the MD-A under TIBET III array MD-A under on the analysis term stability [1001] Long [954] The first GCT camera for the Cherenkov Telescope Array. Array. Telescope for the Cherenkov GCT camera [954] The first RGB J2243+203 [785] Upper limits on diffuse gamma [785] Upper limits for a Tool Ray Particles as Cosmic Charged - [1192] FACT Monitoring Atmospheric [603] ROI: A Prototype Data Model for the Cherenkov Telescope Array Telescope Cherenkov Model for the [603] ROI: A Prototype Data [25] Gamma-rays from accretion containing 6624 NGC cluster the globular from [26] TeV gamma-rays energetic [172] FACT - Performance of the First SiPM camera camera of the First SiPM Performance [172] FACT - Analysis Bayesian an Objective Problem: [85] On the On-Off [86] Search for Gamma-ray Production in Supernovae located in a in a located in Supernovae Production [86] Search for Gamma-ray LAT with Fermi medium interstellar dense [277] The H.E.S.S. multi-messenger program program multi-messenger [277] The H.E.S.S. of the telescopes size for the medium : a camera [127] NectarCAM CherenkovArray Telescope [276] Divergent pointing with the Ch pointing with [276] Divergent and beyond and beyond

PoS(ICRC2015)1236 61 61 128 128 54 125 125 103 103 75 75 92 92 83 83 132 132 78 68 130 79 55 95 74 99 131 114 80 104 104 51 124 133 WU, Hanrong WU, Hanrong YAO, Zhiguo Mingjun CHEN, GAO, Bo LI, Huicai WANG, Xilu Karlen SHAHINYAN, HAHN, Joachim TAKITA, MasatoTAKITA, GOLDONI, Paolo Paolo GOLDONI, BARRES, Ulisses LOPEZ-COTO, Ruben Ruben LOPEZ-COTO, MORI, Masaki Alberto DOMINGUEZ, VASSILIEV, Vladimir Thanh NGUYEN, OZAKI, Keita INOUE, Susumu YOSHIDA, Kenji YOAST-HULL, Tova Gregory RICHARDS, BUß, Jens REIMER, Anita Rafal WOJACZYNSKI, GAO, Bo GAO, Bo Mingjun CHEN, WANG, Xiaojie WU, Hanrong YAO, Zhiguo LI, Huicai BIRD, Ralph ZABALZA, Victor URYSON, Anna spectral modeling thermal rate of the Universe from gamma- rate of the Universe from is of balloon-borne experiment in experiment is of balloon-borne Emission From Starburst Galaxies Galaxies Starburst From Emission A for various Gamma ray sources kov Telescope Array: Overview of kov Telescope ference of particle distribution distribution of particle ference ces with gamma ray initiated showers ray initiated with gamma ces of the microquasar 1E 1740.7-2942 1E 1740.7-2942 of the microquasar osstalk on the Performance of an on the Performance osstalk M31 (the Andromeda Galaxy) (the Andromeda M31 of low luminosity AGNs of low luminosity ons of HESS J1943+213 ons of HESS a new modeling package for non- package modeling a new

- Flaring Episodes

imaging atmospheric Cherenkov telescopes telescopes Cherenkov atmospheric imaging

[426] The TIBET AS+MD Project; progress report 2015 2015 report progress TIBET AS+MD Project; [426] The [1042] Sensitivity of the LHAASO-WCD [1042] Sensitivity [1082] A data mining approach to recognizing source classes for classes source to recognizing mining approach [1082] A data gamma-ray sources unassociated [1306] Gamma-ray properties [1306] Gamma-ray [1318] Cosmic ray acceleration and nonthermal emission from ultra-fast from emission and nonthermal ray acceleration [1318] Cosmic nuclei outflows in active galactic [1118] Optical Polarimetry Campaign on Markarian 421 During the 2012 the During 421 Markarian on Campaign Polarimetry [1118] Optical Large Flight data analys [869] GRAINE project: [932] Updated results from VERITAS on the Crab pulsar VERITAS on the Crab pulsar results from [932] Updated sour of cosmic-ray [388] Investigation with Fermi-LAT with Fermi-LAT ray attenuation optical sub-systems. and mechanical telescope gamma-ray with emulsion 2015 [246] The measurement of the expansion [246] The measurement telescope Schwarzschild-Couder prototype size a medium of [824] Construction for the Cheren instrument as candidate [261] High energy gamma-ray study gamma-ray [261] High energy [1178] GAMERA [1178] GAMERA Operating Cherenkov Telescope Telescope Operating Cherenkov blazars of bright the GeV-spectra [998] Shaping system trigger of stereoscopic concept a new Topo-trigger: [290] The stereo for [1130] FACT – Influence of SiPM Cr – [1130] FACT [1334] Gamma-Ray and Cosmic Ray Escape in Intensely Star-Forming Systems Systems Star-Forming in Intensely Ray Escape and Cosmic [1334] Gamma-Ray and the missing on Geminga from VERITAS results pulsar [1157] Recent J1023+0038 PSR pulsar link binary [1270] Naima: a Python package for in [1270] Naima: [1232] VERITAS Observati [1232] VERITAS of Observations [1068] VERITAS spectra nonthermal from properties [756] Cosmic-Ray Induced Gamma-Ray Gamma-Ray Induced [756] Cosmic-Ray A project LHAASO-WCDA calibration for the [894] Time [965] Redshift measurement of Fermi Blazars for the Cherenkov Telescope Telescope Cherenkov the for of Fermi Blazars measurement [965] Redshift

PoS(ICRC2015)1236 89 89 107 107 113 129 134 134 119 119 112 112 76 70 94 64 88 98 81 77 25 105 105 93 82 85 108 86 100 100 ZABALZA, Victor YAO, Zhiguo Mingjun CHEN, GAO, Bo WU, Hanrong WANG, Xiaojie LI, Huicai Sara COUTIÑO, BROSE, Robert ZIEGLER, Alexander Alexander ZIEGLER, CHEN, Tianlu Tianlu CHEN, Luobu DANZENG, LUBSANDORZHIEV, Bayarto Nachiketa CHAKRABORTY, OTTE, Nepomuk Valerie CONNAUGHTON, LOPARCO, Francesco MAGHRABI, Abdullrahman SPANIER, Felix Henrike FLEISCHHACK, PRANDINI, Elisa Leonid KUZMICHEV, ZHANDONG, Sun ZHANDONG, Thomas WEISGARBER, LEMIÈRE, Anne Raphaël CHALMÉ-CALVET, KLEPSER, Stefan Mingjun CHEN, GAO, Bo HE, Huihai HE, Huihai WU, Hanrong

for large-scale large-scale for la X through H.E.S.S. I observations observations H.E.S.S. la X through I icle detector and the prototype array and the prototype icle detector emission from SNR RX J1713.7-3946 J1713.7-3946 SNR RX from emission the H.E.S.S. Cherenkov telescopes 1-4 1-4 H.E.S.S. Cherenkov the telescopes on in the central 200 pc of our Galaxy our of in the central 200 pc on tragalactic background light with HAWC with light background tragalactic rejection: Methods and performance performance Methods and rejection: bration systems bration systems l of Cherenkov photons at the 28 m at the 28 photons l of Cherenkov first results and perspectives perspectives and first results r GRB observation by LHAASO-WCDA LHAASO-WCDA by r GRB observation Detector Array of LHAASO project Detector Array of LHAASO and trigger pattern of the LHAASO-WCDA project project of the LHAASO-WCDA and trigger pattern field-of-view IACT field-of-view IACT

[1049] Simulation of diffusive particle propagation and related TeV $\gamma$- TeV related and propagation particle of diffusive [1049] Simulation Center at the Galactic ray emission [10] Atmospheric- Weighted Temperature and its influence on Cosmic Ray on and its influence Temperature Weighted [10] Atmospheric- Cherenkov arrays inastroparticle physicsexperiments multi- for Capabilities Burst Monitor [1081] Fermi Gamma-ray astronomy time-domain messenger Moon rays from the gamma energy of high observations [804] Fermi LAT [908] Status of Water Cerenkov [908] Status of Water [922] TAIGA experiment – status, [922] TAIGA experiment for upgrade [729] A major electronics [1015] Exploiting the time of arriva [1187] Rapid variability at very high energies in Mrk 501 501 in Mrk energies variability at very high [1187] Rapid SiPM Camera for a Schwarzschild-Couder of a [1052] Development Array Telescope for the Cherenkov Telescope Cherenkov H.E.S.S. telescope for background [647] Probing the electron population of Ve population the electron [647] Probing [1258] New concepts of timing cali concepts [1258] New [410] The VHE gamma-ray periodicity of PG1553+113: a possible probe probe possible a of PG1553+113: periodicity [410] The VHE gamma-ray hole black binary supermassive a system of of [33] Advanced models for AGN emission emission AGN for models [33] Advanced flux from the ULIRG Arp 220 on the VHE $\gamma$-ray limits [354] Upper with VERITAS galaxies and other [35] Selection of AGN to study the ex [35] Selection gamma-ray of GeV-band [358] Analysis [1079] Triggerless scheme [1079] Triggerless of LHAASO-KM2A of LHAASO-KM2A VHE diffuse emissi [982] Study of the with H.E.S.S. [896] Progress on the electromagnetic part the electromagnetic [896] Progress on Monitor Flare Online HAWC Alerts with the [732] Blazar [842] Study on the large dimensional refractive lens for the future for the future lens refractive large dimensional [842] Study on the large [901] Low multiplicity technique fo multiplicity technique [901] Low

[id] title [id] title presenter board

Poster 1 SH - Theater Foyer (15:30-16:30) Poster 1 SH - Theater Foyer

PoS(ICRC2015)1236 39 39 2 47 47 17 17 38 38 4 28 1 6 42 10 22 29 36 12 43 33 5 41 41 13 18 34 40 44 15 15 14 KECSKEMETY, Karoly KAHLER, Stephen KAHLER, Stephen MIKHAILOV, Vladimir MIKHAILOV, KÜHL, Patrick KUDELA, Karel KUDELA, Karel VALTONEN, Eino VALTONEN, Olga MALANDRAKI, JIA, Huanyu DASSO, Sergio KECSKEMETY, Karoly VARGAS, Stephany ALEKSANDRIN, Sergey LE, Guiming LUO, Xi LUO, Xi PUSTILNIK, Lev KAHLER, Stephen MAKHMUTOV, Vladimir THOMAS, Simon BURGER, Renier Renier BURGER, STRAUSS, Du Toit HEBER, Bernd KÜHL, Patrick DURANTI, Matteo KUMAR, RAJIV Christian SARMIENTO-CANO, YAMAMOTO, tokonatsu tokonatsu YAMAMOTO, KÜHL, Patrick ents on the solar activities: flares the solar ents on and Multi-Spectral Data Analysis Multi-Spectral Data and v Detectors in the Antarctic Peninsula Peninsula the Antarctic in v Detectors ECTION, MAGNETIC CLOUD AND ECTION, MAGNETIC ram: Directional Geomagnetic Geomagnetic ram: Directional on Proton Helium Instrument on board Instrument Proton Helium on aps with inner acceleration regions regions acceleration with inner aps particle events during multiple coronal multiple during events particle s in the region of outer radiation belt, outer radiation the region of s in -Rich Solar Energetic Particle Events Particle -Rich Solar Energetic in Earth inner radiation belt for 2006- belt for radiation in Earth inner from the 2010 June 12 Impulsive Flare Flare Impulsive 2010 June 12 the from solar wind fluxes from near equatorial equatorial from near wind fluxes solar g ground level enhancements as as level enhancements g ground Sun shadow in cosmic rays observed observed rays in cosmic Sun shadow JEM-EUSO project?

ilti [1323] Time variations of proton flux of variations [1323] Time data and the ARINA PAMELA on the based 2015 years and coronal mass ejections mass ejections and coronal [996] Jovian electrons and magnetic tr and electrons [996] Jovian proton ev MeV solar of 100 [206] Dependence [584] Dynamics of relativistic electron of relativistic [584] Dynamics as part of the LAGO Detection Network Network of the LAGO Detection as part in 2006-09 coronal holes for Space set of WCD detectors a Implementing Ecuador, [1213] LAGO developments and further first results research: weather events by solar caused [568] Suprathermal ions at 1 AU in at ions [568] Suprathermal [815] A Project to Install Water-Cherenko [914] Possibilities for selected space weather and atmospheric atmospheric and weather space for selected [914] Possibilities in studies of the correlation [425] Five-year mass ejections mass ejections and Analysis: foRecastIng Particle Events Energy Solar [1253] High Project The HESPERIA variability Field Magnetic with the Interplanetary by ARGO-YBJ [534] Observations of solar energetic energetic of solar [534] Observations [1256] The LAGO Space Weather Prog Space Weather [1256] The LAGO [975] Improved 3He/4He isotope separation in EPHIN data based on on data based in EPHIN separation isotope 3He/4He [975] Improved Coronal with Remote Associated Ray Decreases Cosmic [1194] Near-Earth Mass Ejections [230] Unusual cosmic ray increases observed during several solar solar several during observed ray increases cosmic [230] Unusual flares in 2011-2013 Calculations Fluence Effects, Background [80] Solar Energetic Particle Event Onsets: Far Backside Solar Sources and Solar Sources Far Backside Event Onsets: Particle [80] Solar Energetic Asymmetry Hemispheric the East-West [82] Coronal Sources of Impulsive Fe Sources [82] Coronal EJ [1160] STUDY ON CORONAL MASS [192] A numerical simulation of cosmic ray modulation near the heliopause heliopause near the of cosmic ray modulation simulation [192] A numerical Connections of Solar-Terrestrial [132] On Non-Universality measured by EPHIN aboard SOHO SOHO by EPHIN aboard measured orbit the ISS along estimation Cutoff Geomagnetic [609] Time dependent THEIR GEOEFFECTIVENESS [599] On the perpendicular diffusion of solar energetic particles particles of solar energetic diffusion [599] On the perpendicular durin energy spectra [983] Proton [1161] Solar-cycle dependence of selected turbulence quantities at Earth at quantities turbulence of selected dependence [1161] Solar-cycle [769] Search for >30 MeV Neutrons Neutrons MeV for >30 [769] Search 23 and 24 - Cycle Solar During Ray Spectra Cosmic [601] Galactic of the Electr Capabilities Measurement

PoS(ICRC2015)1236 48 48 32 37 37 26 26 20 20 35 35 23 23 8 45 19 46 11 9 31 16 7 30 30 3 21 SHRIVASTAVA, Pankaj Kumar ALEKSANDRIN, Sergey BÜTIKOFER, Rolf Rolf BÜTIKOFER, MISHEV, Alexander DALLA, Silvia ZHARASPAYEV, Temir Temir ZHARASPAYEV, VALTONEN, Eino VALTONEN, Firas AL-HAMADANI, KRYAKUNOVA, Olga LABRADOR, Allan YAMAMOTO, tokonatsu NGOBENI, Donald Donald NGOBENI, Anastasia PETUKHOVA, Renata MODZELEWSKA, ALANIA, Michael Eino VALTONEN, Grigory PROTOPOPOV, RAJIV, Kumar ZELINA, Peter MEWALDT, Richard

V to Hundreds of TeV of TeV V to Hundreds Mathieu DE NAUROIS, ace: Overview and Update Update Overview and ace: STONE, Edward ns of the Galactic Cosmic Ray Cosmic ns of the Galactic and their association with cosmic cosmic with their association and lated to disk-centre full-halo coronal coronal to disk-centre full-halo lated heavy-ion solar energetic particles particles energetic solar heavy-ion the Cloudless Days and Cloudless Cloudless Days and the Cloudless on in the space radiation exposure exposure radiation in the space on r Solar Energetic Particle Events Particle Events r Solar Energetic energy spectrum evolution in time evolution spectrum energy with Three Large Flares observed in observed Flares Three Large with r energetic particle event on March 17- event on March particle r energetic r energetic particles of Easter 2001 of Easter 2001 particles r energetic ght altitudes with the newly computed the newly computed with ght altitudes drift on the proton flux data of the proton flux drift on onal hole latitude and polarity on the latitude and onal hole Energetic Particle Events Energetic Particle Events Forum Theater (16:30-18:30) particles

experiments experiments

[875] The Voyager Journey to Interstellar Sp to Interstellar Journey [875] The Voyager Sky from ~ 20 Ge [314] The Very High Energy dark matter in the Milky Way [527] Mapping PATO, Miguel function function

intensity variations intensity variations relativistic electron bursts in the Earth's magnetosphere magnetosphere in the Earth's electron bursts relativistic

[898] Rapid determination of cutoff rigidities and asymptotic directions directions and asymptotic of cutoff rigidities determination [898] Rapid database in a parameters predetermined using 17:00 17:00 17:30 16:30 16:30 from 2012-2015 with ACE and STEREO and STEREO with ACE from 2012-2015 7th and 9th 5th, 2012 March [266] Solar Neutrons in association in association [266] Solar Neutrons [821] Inferred Ionic Charge States fo Ionic Charge [821] Inferred [478] On the influence of the cor [478] On the influence mass ejections mass ejections of Solar Survey [1242] A 360° sola of multi-eruption [511] Analysis 18, 2003 variations. ray activity and cosmic geomagnetic [535] Solar energetic particle events re events particle [535] Solar energetic [1288] Solar particle events contributi events particle [1288] Solar [19] Effective dose calculation at fli [19] Effective dose calculation SOHO/ERNE by measured events solar particle [1048] Iron-rich Solar Particle EventSolar Particle of Distribution Seasonal Intensity and study experimental (1) Georgia): 42.82oE; (41.75oN, in Abastumani Nights modeling theoretical and (2) yield orbit polar at the equipment on electronic [1284] Annual and Semi Annual Variatio [1284] Annual [480] Calculation of injection of sola of injection [480] Calculation [106] Multi-spacecraft observations of observations [106] Multi-spacecraft carbon helium, protons, galactic for spectra interstellar very local [161] New GeV. below 50 and electrons ray satellite heavy-ion solar of propagation heliospheric of simulations [1228] 3D energetic [552] The South Atlantic Anomaly [552] The South processes atmospheric the Earths and Radiation [445] Cosmic [1355] Geo effectiveness of halo CMEs halo CMEs of [1355] Geo effectiveness [613] Robust regression analysis of analysis regression [613] Robust for

time [id] title presenter

High-Light Talks - World

PoS(ICRC2015)1236 TING, Samuel Samuel TING, Spectrometer on the International the International on Spectrometer

Space Station Space Station [1376] Latest results from the Alpha Magnetic the Alpha from results Latest [1376]

18:00 18:00

Reception - (18:30-20:00) Reception

PoS(ICRC2015)1236 MÜLLER, Gero Gero MÜLLER, FENG, Zhaoyang Noemie GLOBUS, ZAW, Ingyin AHARONIAN, Felix AHARONIAN, Felix MIKHAILOV, Vladimir Emiliano MOCCHIUTTI, DURANTI, Matteo Andrei KOUNINE, MUSSER, JIm TARLE, Gregory PARK, nahee Stephane COUTU, Scott NUTTER, Michael SCHUBNELL, WAKELY, Scott Muller DIETRICH, GESKE, Mathew Joseph GENNARO,

Positron Fraction Fraction Positron MIKHAILOV, Vladimir le and cosmic-ray physics physics cosmic-ray le and Ralph ENGEL, ) Flux in Primary Cosmic Rays from results : positron fraction and pbar/p pbar/p and fraction : positron results ic field with ultra-high energy cosmic ultra-high energy ic field with  Ray Electron Flux from CREST (Cosmic (Cosmic from CREST Ray Electron Flux nd Some Applications nd Glennys FARRAR, ND ELECTRONS OBSERVED BY THE ELECTRONS ND trum with VERITAS trum STASZAK, David

d Forum Theater (09:00-10:30) d Forum rays A of Virgo cosmic rays image energy [169] The ultra-high TeV with 10-1000 between anisotropy Ray Cosmic sky Galactic [880] Northern Array the Tibet Air Shower across the composition and ray spectrum of the cosmic model [657] A simple transition to extragalactic Galactic SMIDA, Radomir [1305] Investigation of the galactic magnet of the galactic [1305] Investigation for UHECR Catalog All-Sky Optical AGN [1325] A Uniformly Selected, Correlation [1326] The Galactic Magnetic Field a Magnetic [1326] The Galactic [1132] A Cosmic-ray Electron Spec [1154] Limits on the Multi-TeV Cosmic the Multi-TeV on [1154] Limits Ray Electron Synchrotron Telescope) [385] Precision Measurement of the (e++e of the Measurement [385] Precision Spectrometer Magnetic Alpha [575] Latest [207] SECONDARY POSITRONS A [207] SECONDARY POSITRONS PAMELA SPECTROMETER Rays the Cosmic of [994] Time Dependence ratio. [1384] Relations between high-energy partic high-energy between [1384] Relations [1380] Cosmic particle acceleration after a decade of VHE gamma-ray of VHE gamma-ray after a decade acceleration particle [1380] Cosmic observations on the International Spectrometer 0.5 GeV to 1 TeV with the Alpha Magnetic Space Station

12:15 12:15 11:45 11:45 12:00 11:30 11:30 11:15 11:15 11:00 11:00 12:15 12:15 12:00 12:00 11:45 11:45 11:30 11:30 11:15 11:15 11:00 11:00 09:45 09:45 09:00 09:00

time [id] title presenter Parallel CR05 TH/aniso - Yangtze 2 (11:00-12:30)

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Parallel CR04 e+ e- - World Forum Theater (11:00-12:30) e+ e- - World Forum Theater Parallel CR04

time [id] title presenter

Invited ReviewInvited - Worl Talks

Friday 31 July 2015 31 July Friday

PoS(ICRC2015)1236 KADOWAKI, Luís H. S.

FERREIRA, Stefan FERREIRA, NIEMIEC, Jacek GUO, Xiaocheng PORTER, Troy Troy PORTER, Francesca CALORE, Alfredo URBANO, Christoph WENIGER, TUFFS, Richard KHIALI, Behrouz BEDNAREK, Wlodek

Clouds in the Galactic Center Center the Galactic in Clouds Chris GORDON, i Galactic center excess in terms of terms in excess center i Galactic

of the heliosphere of the heliosphere Vladimir FLORINSKI, GeV excess”: robust characterisation characterisation robust GeV excess”: on of compact objects with a jet in Cen objects on of compact r Heliosheath - implications for IBEX and Gamma-Ray Bursts Bursts Gamma-Ray Soebur RAZZAQUE, mma-Ray Emission Toward the Galactic Galactic the Toward Emission mma-Ray Microquasars and Low Luminosity AGNs Luminosity Low and Microquasars [1119] Propagation Times of Jovian Electrons of Jovian Electrons Times [1119] Propagation Adrian VOGT, [595] Cosmic ray anisotropies near the heliopause the heliopause near ray anisotropies [595] Cosmic Numerical from Heliopause near Rays Modulation Cosmic [777] Galactic Simulations the boundary beyond rays [1247] Cosmic Du Toit STRAUSS, [154] The E ffect of a Dynamic Inner Heliosheath Thickness on Cosmic Ray on Cosmic Thickness Heliosheath Inner [154] The E ffect of a Dynamic Modulation Ion Scattering in the Oute [377] Pick-up Voyager 1 observations. [269] Very High Energy Emission from Energy Emission [269] Very High [1144] Are gamma rays produced in the core region of microquasars and microquasars of core region in the produced rays [1144] Are gamma AGNs? Gamma-Ray and Radio on the Reconnection [1215] The Role of Fast Magnetic of Regions Nuclear the from Emission from interacti radiation [24] Non-thermal A [1304] A Radiation Transfer Model for the UV-submm Radiation Fields in the Fields Radiation UV-submm Model for the Transfer [1304] A Radiation Astrophysics Milky Way: Application to High Energy Type Ia Supernova For A Galactic As Alert GBM [752] Using Xilu WANG, unresolved point sources sources point unresolved break [943] Interpreting the GeV gamma-ray excess in terms of non-standard of non-standard excess in terms the GeV gamma-ray [943] Interpreting diffusion models. cosmic-ray the Ferm of the interpretation [1234] Testing [431] Interacting Cosmic Rays with Molecular with Molecular Rays Cosmic [431] Interacting Ga of High-Energy [801] Observations Centre of the “Fermi the nature [1140] Unveiling interpretations and possible

12:15 12:15 11:45 11:45 12:00 11:30 11:30 11:15 11:15 11:00 11:00 12:15 12:15 12:00 12:00 11:30 11:30 11:45 11:15 11:15 11:00 11:00 12:15 12:15 12:00 12:00 11:45 11:45 11:30 11:30 11:00 11:00 11:15

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Parallel CR06 Dir p He - Amazon (14:00-15:30)

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Parallel SH02 - Mississippi (11:00-12:30)

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Parallel GA06 TH - Amazon (11:00-12:30) Parallel GA06 TH - Amazon

time [id] time [id] title presenter Parallel GA05 GeV excess GalCen - Yangtze 1 (11:00-12:30) - Yangtze GalCen excess GeV GA05 Parallel

PoS(ICRC2015)1236 PORCELLI, Alessio PORCELLI, RUBTSOV, Grigory Grigory RUBTSOV, HIRAIDE, Katsuki VEBERIC, Darko PICOT-CLEMENTE, Nicolas Nicolas PICOT-CLEMENTE, Vitaly CHOUTKO, Sadakazu HAINO, KOLDOBSKIY, Sergey UNGER, Michael YUSHKOV, Alexey BELZ, John SAKAI, Kenichi

periments LUBSANDORZHIEV, Bayarto LUBSANDORZHIEV, periments

of the XMASS-I dark matter Proton Spectrum Spectrum Proton GREEN, David Michael Flux in Primary Cosmic Rays from 1 Rays Flux in Primary Cosmic Flux in Primary Cosmic Rays from 2 Rays Flux in Primary Cosmic

ed by the Pierre Auger Observatory: Observatory: ed by the Pierre Auger ments of the depth of shower maximum maximum of shower depth ments of the e Composition of Ultra-High Energy of Ultra-High e Composition measurements by the Telescope Array by the Telescope measurements r and Astrophysical Sources Sources r and Astrophysical MOTZ, Holger ectrometer on the International Space the International on ectrometer en-photon sector with a large spherical with a large spherical sector en-photon gh Elevation Fluorescence Telescopes Telescopes gh Elevation Fluorescence Spectrometer on the International Space Space on the International Spectrometer ngsten Tracker of DAMPE Tracker ngsten GALLO, Valentina hotons and neutrinos with the surface surface with the and neutrinos hotons O4 crystals for dark matter ex O4 crystals for dark d Forum Theater (14:00-15:30) annual modulation analysis analysis annual modulation [381] The Silicon-Tungsten Tracker of the DAMPE Mission of the DAMPE Mission Tracker [381] The Silicon-Tungsten [1271] Extensive studies of CaMo WU, Xin [371] Search for dark matter in the hidd for dark matter [371] Search Sensitivity to Dark Matte [438] CALET's Silicon Tu of the results [981] The test detector data data detector from the [950] Results data mirror [781] Telescope Array search for p search Array [781] Telescope LOFAR with composition ray mass the cosmic [920] Measuring BUITINK, Stijn Cosmic Rays Rays Cosmic mixed? pure or composition UHECR of [863] Summary Experiment of the first two mo [1176] Measurements Pierre from the standard data combining of energy, decades three over nearly Hi the and detector Auger fluorescence [618] Report of the Working Group on th Group of the Working [618] Report measur at the ``ankle'' [796] Composition GV to 3 TV with the Alpha Magnetic Sp Alpha Magnetic GV to 3 TV with the Station [51] Precision Measurement of the Helium Measurement [51] Precision of Cosmic-ray Measurement [1321] Fermi-LAT in PAMELA deuterons quasitrapped and of trapped [793] Measurement experiment [1205] Measurements of Galactic Cosmic-Ray Hydrogen and Helium Isotopes Isotopes Helium and Hydrogen Cosmic-Ray of Galactic [1205] Measurements II Instrumentwith the BESS-Polar of the Proton Measurement [311] Precision GV to 1.8 TV Magnetic with the Alpha Station. [1278] BESS-Polar Measurements of the Cosmic-ray Proton and Helium and Helium Proton Cosmic-ray of the Measurements BESS-Polar [1278] Spectra

15:00 15:00 15:15 14:30 14:30 14:45 14:15 14:15 14:00 14:00 15:15 15:15 15:00 15:00 14:45 14:45 14:30 14:30 14:15 14:15 14:00 14:00 15:00 15:00 15:15 14:45 14:45 14:30 14:30 14:15 14:15 14:00 14:00

time [id] title presenter Parallel GA07 MAGIC - Mississippi (14:00-15:30)

time [id] title presenter

Parallel DM02 - Yangtze 2 (14:00-15:30)

time [id] title presenter Parallel CR07 EAS mass - Worl

PoS(ICRC2015)1236

HAMS, Thomas HAMS, Thomas HUGHES, Gareth HUGHES, Ruben LOPEZ-COTO, Pierre COLIN, Juergen BRUNNER, Wei-Shu George HOU,

tions - World Forum Theater (18:30-19:00) the Crab detected by MAGIC by detected the Crab Emma WILHELMI, DE ONA Cherenkov Neutrino Detectors Detectors Neutrino Cherenkov BARWICK, Steven oscillations and the mass hierarchy the mass hierarchy and oscillations ion by the PAMELA Experiment BOEZIO, Mirko onomy with KM3NeT/ARCA KM3NeT/ARCA with onomy PIATTELLI, Paolo

Heavy GCRs measured by SuperTIGER measured by SuperTIGER Heavy GCRs ): Prospect towards Survey of towards Prospect ): vity of Mrk501 during multi-wavelength multi-wavelength during vity of Mrk501 Forum Theater (16:30-18:30)

[128] 2FHL: The second Catalog of Hard Fermi-LAT Sources Sources Fermi-LAT Catalog of Hard second [128] 2FHL: The of Ultra- Abundances [1378] Elemental Rays Cosmic of Galactic and ACE-CRIS and the Origin AJELLO, Marco [1377] Nine Years of Cosmic Ray Investigat Years of Cosmic [1377] Nine of Radio- [891] Progress in the Development in the Mediterranean in the Mediterranean [532] KM3NeT - ORCA: Measuring neutrino neutrino Measuring - ORCA: [532] KM3NeT Array High Energy [741] The IceCube-Gen2 Array (NTA Telescope [1170] Neutrino Erik BLAUFUSS, [1379] Status of the PINGU detector [1379] Status of the PINGU detector neutrino astr [1014] All-flavour high-energy Sources $\nu_\tau$ Astronomical CLARK, Ken [288] Black Hole Lightning from the Peculiar Gamma-Ray AGN IC 310 310 AGN IC Peculiar Gamma-Ray from the Hole Lightning [288] Black a very deep from physics ray cluster cosmic on the [199] Constraints MAGIC with cluster the Perseus observation of Dorit GLAWION, observations in observations 2012 from emission pulsed [360] Tera-electron-Volt 58 nebula 3C pulsar wind from the of TeV gamma-ray emission [289] Discovery by MAGIC [1336] Highlights of MAGIC of Highlights [1336] flaring acti of the extreme [772] Study Razmik MIRZOYAN,

17:30 17:30 18:00 16:30 16:30 17:00 14:54 14:54 15:12 14:36 14:36 14:00 14:00 14:18 15:00 15:00 15:15 14:45 14:45 14:30 14:30 14:00 14:00 14:15

ApPIC/IUPAP: Open data Policy Recommenda ApPIC/IUPAP: Open data Policy

time [id] title presenter High-Light Talks - World

Poster 1 - (15:30-16:30)

time [id] title presenter

Parallel NU02 - Yangtze 1 (14:00-15:30) Parallel NU02

PoS(ICRC2015)1236 DE MITRI, Ivan Paolo MONTINI, HUANG, Jing Jing HUANG, FOR THE TIBET ASGAMMA for the COLLABORATION, Collaboration Tibet ASgamma Zhang SHOUSHAN, MORI, Nicola Yves Marie Laurent DEROME, OLIVA, Alberto HEIL, Melanie Alan CUMMINGS, Sven SCHOO,

THE PAMELA-EXPERIMENT MENN, Wolfgang rays in the range 10\,GV--10\,TV 10\,GV--10\,TV in the range rays ANUJ CHANDRA, Cosmic Rays in the Local Interstellar in the Local Interstellar Rays Cosmic energy spectrum below 1 PeV by using PeV by using 1 below energy spectrum energy spectrum below 1 PeV by using PeV by using 1 below energy spectrum

ys in the range from $ \mathbf{10^{14}} from $ \mathbf{10^{14}} ys in the range rbon to Helium Flux Ratio in Cosmic Flux Ratio in Cosmic to Helium rbon ryllium comic-ray abindances by the abindances comic-ray ryllium and perspectives perspectives and M.P. TAIT, Tim rays with the new Tibet hybrid Tibet hybrid with the new rays p+He energy spectrum below 1 PeV by 1 below energy spectrum p+He d Forum Theater (09:00-10:30) d Forum ies very close the EAS core to with the ARGO-YBJ s in Neutrino Astronomy Neutrino Astronomy s in KOPPER, Claudio measuring particle densit experiment in the p+He of a knee [961] Observation experiment. of the ARGO-YBJ data analysis for the technique a bayesian [315] Observation of a knee in the p+He of a knee [315] Observation in the of a knee [917] Observation [45] Energy spectrum of the primary cosmic cosmic [45] Energy spectrum of the primary cosmic of primary [1181] Observation +Tibet-III + MD)) experiment(YAC-II Telescope Cherenkov and a LHAASO ARGO-YBJ with an hybrid measurement [340] The energy spectrum of cosmic ra of cosmic spectrum [340] The energy [702] Voyager 1 Observations of Galactic 1 Observations [702] Voyager Rates and Ionization Density Medium: Energy \, \mathrm{\textbf{eV}}}$ $ to $ \mathbf{10^{18} [355] Precision Measurement of Boron to Carbon Flux Ratio in Cosmic Rays Ratio in Cosmic Rays Flux of Boron to Carbon Measurement [355] Precision Spectrometer to 1 TeV/n with the Alpha Magnetic from 0.5 GeV/n with energies Station. Space on the International of the Ca Measurement [520] Precision [376] LITHIUM AND BERYLLIUM ISOTOPES IN [376] LITHIUM AND BERYLLIUM ISOTOPES [990] Measurement of Lithium and Be PAMELA experiment with the Alpha Rays of Lithium Flux in Cosmic Measurement [589] Precision Space Station the International on Spectrometer Magnetic the on Spectrometer Magnetic Rays from 2 GV to 2 TV with the Alpha Space Station International [721] Recent Result [721] Recent [1382] Dark matter candidates: status candidates: matter [1382] Dark

12:15 12:15 12:00 12:00 11:45 11:45 11:30 11:30 11:15 11:15 11:00 11:00 12:15 12:15 12:00 12:00 11:45 11:45 11:30 11:30 11:00 11:00 11:15 09:45 09:45 09:00 09:00

Parallel GA08 EGAL - Yangtze 1 (11:00-12:30)

time [id] title presenter

Parallel CR09 EAS knee - World Forum Theater (11:00-12:30) Parallel CR09 EAS knee - World

time [id] title presenter Parallel CR08 Dir light - Yangtze 2 (11:00-12:30) Parallel CR08

time [id] title presenter

Invited ReviewInvited - Worl Talks

Saturday 01 August 2015 01 August Saturday

PoS(ICRC2015)1236 SITAREK, JulianSITAREK, LAITINEN, Timo KLEIN, Karl-Ludwig PETUKHOV, Ivan Claudio CORTI, BOTTACINI, Eugenio Eugenio BOTTACINI, CERRUTI, Matteo DYRDA, Michal ZEFI, Floriana Carlo ROMOLI, Alba FERNANDEZ-BARRAL, BORDAS, Pol ZABALZA, Victor

ing Clustering Analysis ing Clustering ARMSTRONG, Thomas activity of solar cycle 24 of solar cycle 24 activity MATSUBARA, Yutaka

ing activity from the BL Lac object object from the BL Lac ing activity

er of Mrk 876 and the switch on of its on the switch 876 and er of Mrk al Interstellar Protons with AMS-02, with Protons al Interstellar les across the Parker field due to field Parker field the across les om the radio galaxy PKS 0625-354om the radio galaxy with r particle events: interplanetary transport transport interplanetary events: r particle +35 using the MAGIC telescope system system telescope the MAGIC using +35 B1259-63 during its 2014 periastron its 2014 periastron during B1259-63 gamma rays from the most distant and and most distant the from rays gamma LS 5039 LS 5039 Christian MARIAUD,

line meandering line meandering modelling and radio emission maximum the during neutrons for solar [926] Search [566] Transport of Solar Energetic Partic of Solar Energetic [566] Transport sola origin of relativistic [1021] On the [477] Influence of region behind the shock front on acceleration of solar front on acceleration the shock [477] Influence of region behind energetic particles by AMS-02 measured Particles [853] Solar Energetic of Loc [857] Study of the Solar Modulation 1 and Voyager PAMELA, Neutron Monitors BINDI, Veronica [620] DETECTION OF PERSISTENT SUB-GEV GAMMA-RAY EMISSION EMISSION SUB-GEV GAMMA-RAY [620] DETECTION OF PERSISTENT SS433/W50 TOWARDS of eta Carinae with models observations gamma-ray [1243] Linking and non-thermal acceleration of particle modelling [1020] Time-dependent Carina emission in Eta REIMER, Olaf [1197] H.E.S.S. observations of PSR [1197] H.E.S.S. observations of [1280] H.E.S.S. observations with objects stellar and variable of transient observations [295] VHE gamma-ray the MAGIC telescopes passage passage [742] Discovery of VHE gamma-rays fr [742] Discovery of us 100 GeV AGN above of Fermi [668] The Detection by Detected B2 1215+30 Blazar the flare from [591] A Bright Gamma-ray VERITAS and Fermi-LAT [879] The extreme environment in the cent extreme environment [879] The AGN activity gamma-ray flar of [762] VERITAS detection moonlight observations bright during 1ES1727+502 H.E.S.S. [927] Detection of very-high-energy of very-high-energy [927] Detection gravitationally lensed blazar S3 0218 blazar lensed gravitationally

12:15 12:15 12:00 12:00 11:45 11:45 11:15 11:15 11:30 11:00 11:00 12:00 12:00 12:15 11:45 11:45 11:15 11:15 11:30 11:00 11:00 12:00 12:00 12:15 11:45 11:45 11:30 11:30 11:15 11:15 11:00 11:00

Discussion towards future Neutrino Telescope Array for beyond PeV nu_tau's for beyond Array Telescope Neutrino future towards Discussion

NTA - Murray (12:45-13:45) NTA - Murray

time [id] title presenter

Parallel SH03 - Mississippi (11:00-12:30)

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(11:00-12:30) Parallel GA09 Binaries - Amazon

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PoS(ICRC2015)1236 ER, Frank G. Frank ER, BONNIVARD, Vincent Vincent BONNIVARD, DI MAURO, Mattia PSHIRKOV, Maxim MURPHY, Ryan Ryan MURPHY, LABRADOR, Allan PANOV, Alexander BELOV, Konstantin MYERS, Isaac Daniel GARCÍA FERNÁNDEZ,

and the first results the first results and Dmitry PODOROZHNY,

eter LOPES SCHRÖD to iron in sources, according to the according in sources, to iron ensive air showers with the SKA HUEGE, Tim ic Cosmic Rays from the SuperTIGER SuperTIGER the ic Cosmic Rays from

he Square Kilometre Array Array he Square Kilometre Clancy JAMES, gy cosmic-ray showers after reflecting showers after reflecting gy cosmic-ray and Spectra for Ne through Ni from 0.8 Ni from through Ne for and Spectra : First Measurement of EAS First Measurement : Radar Galactic Cosmic-Rays Cosmic-Rays Galactic SASAKI, M. agalactic radio background radio background agalactic FANG, Ke y positron fraction fraction y positron Mathieu BOUDAUD, d Forum Theater (14:00-15:30) - Mississippi (14:00-15:30) - Mississippi measurements of ext measurements the digital radio interferom radio the digital [1156] Science Highlights from VERITAS Highlights [1156] Science David STASZAK, [942] A new look at the cosmic ra [942] A new look at the cosmic [834] A dark matter origin of the extr matter origin [834] A dark matter dark as holes black primordial [1173] Stellar evolution constrains candidates [1164] Determining the Local Dark Matter Density Matter Density Dark the Local [1164] Determining dwarf Milky Way's factors in the and decay annihilation [283] Dark matter galaxies spheroidal and data positron and of AMS-02 electron explanation [356] Astrophysical dark matter contribution on constraints Hamish SILVERWOOD, [1260] Telescope Array Radar (TARA) Limit Upper Cross-section [645] High-precision t with technique Askaryan [531] The lunar ultra-high ener from emission [357] Radio on the Earth. [841] SLAC T-510: A beam-line experiment of radio emission from particle particle from of radio emission experiment beam-line A [841] SLAC T-510: of a magnetic field in the presence cascades [693] New results of [561] The NUCLEON Space Experiment status Experiment Space [561] The NUCLEON [817] Galactic Cosmic-Ray Composition Composition Cosmic-Ray [817] Galactic from protons of nuclei spectra [718] Energy [394] Observation of 60Fe in the Galactic Cosmic Rays Rays Cosmic the Galactic in of 60Fe [394] Observation and the Origin of [1264] SuperTIGER of Ultra-Heavy Galact [1314] Abundances Instrument Instrument with the SuperTIGER to 10 GeV/nuc ISRAEL, Martin ATIC experiment

14:00 14:00 15:15 15:15 15:00 15:00 14:45 14:45 14:15 14:15 14:30 14:00 14:00 15:00 15:00 15:15 14:30 14:30 14:45 14:15 14:15 14:00 14:00 15:15 15:15 15:00 15:00 14:45 14:45 14:15 14:15 14:30 14:00 14:00

time [id] title presenter

Parallel GA10 VERITAS - Worl

time [id] title presenter Parallel DM03 - Yangtze 2 (14:00-15:30)

time [id] title presenter

Parallel CR11 Radio - Amazon (14:00-15:30)

time [id] time [id] title presenter

Parallel CR10 Dir heavy CR10 Dir heavy Parallel

PoS(ICRC2015)1236 231 231 215 215 214 214 216 216 189 156 230 246 180 212 150 150

KOWSKI, Andrzej KOWSKI, O'FAOLAIN DE BHROITHE, DE O'FAOLAIN BHROITHE, Anna KUMAR, Sajan Jan AUFFENBERG, MASE, Keiichi , Gordana ■ ■ MIA HIBINO, Kinya HIBINO, Kinya TEŠI ■ HAMPEL-ARIAS, Zigfried HAMPEL-ARIAS, REIMER, Olaf WEI, Yifeng Satyendra THOUDAM, ZILLES, Anne IVANOV, Anatoly ERLYKIN, Anatoly SCHUMACHER, Johannes SCHUMACHER, Johannes scope SHAYBONOV, Bair scope SHAYBONOV, nology Developments Developments nology Andrew ROMERO-WOLF, high-energy cosmic neutrinos neutrinos cosmic high-energy DE VRIES, Krijn

bright TeV flares from LS I +61 from flares bright TeV ng Supernova Remnant IC 443 IC 443 Remnant ng Supernova Brian HUMENSKY, Energy Neutrino Detectors Detectors Energy Neutrino Keith BECHTOL, ctic Center Ridge Ridge Center ctic SMITH, Andrew Baikal-GVD neutrino tele Baikal-GVD

Observation Program Program Observation BENBOW, Wystan emission from Cassiopeia A using A Cassiopeia from emission he ARA radio neutrino telescope with an telescope neutrino he ARA radio enkov light induced by extensive air by extensive light induced enkov gular distributions of electrons in of electrons distributions gular of charged particles in association in association particles of charged em for silicon photomultipliers silicon photomultipliers em for ck hole evaporation signal with AMON with signal evaporation ck hole ic ray intensity in the Galaxy ic ray intensity in the

t [843] The ExaVolt Antenna Mission Concept and Tech Concept Mission [843] The ExaVolt Antenna of detection feasibility of the radar [1180] On the for Ultra-high Arrays Radio [1297] Phased [959] Motivations and Techniques of a Surface Detector to Veto Air Showers for to Veto Air Showers of a Surface Detector Techniques [959] Motivations and at the Southern Sky with IceCube Astronomy Neutrino of the [1142] The first construction phase of t calibration [468] Experimental in ice electron beam [662] VERITAS observations of exceptionally observations [662] VERITAS 303 of The Gala [686] VERITAS Observations of gamma-ray [542] A detailed study VERITAS [868] Highlights from the VERITAS AGN AGN the VERITAS from Highlights [868] the Interacti Morphology of TeV [1214] The extensive air showers showers air extensive

[134] The radial gradient of cosm gradient [134] The radial of the Cher signatures [139] Temporal [660] Modelling of radio emission in the SLAC T-510 Experiment SLAC T-510 in the of radio emission [660] Modelling simulations Geant4 microscopic using [766] The cosmic-ray energy spectrum above $\sim 10^{16}$ eV measured with eV measured $\sim 10^{16}$ above spectrum [766] The cosmic-ray energy Air Shower Array Radboud the LOFAR array Yakutsk the with detected rays cosmic of showers [1262] Galactic cosmic ray propagation models using Picard Picard using models propagation ray cosmic [1262] Galactic BGO ECAL effect in DAMPE [760] Study on Temperature [213] Observation of intense fluxes fluxes of intense [213] Observation syst supply power [622] Dedicated [212] Universality of the lateral and an [212] Universality of the lateral and [216] Measuring the $e^+e^-$ Flux above 1 TeV with HAWC Flux above the $e^+e^-$ [216] Measuring bla for primordial [768] Searching large in Tibe with thundercloud 15:00 15:00 15:15 14:45 14:45 14:15 14:15 14:30 14:00 14:00 15:02 15:02 15:16 14:48 14:48 14:20 14:20 14:34

[id] title [id] title presenter board

Poster 2 CR - Amazon Foyer (15:30-16:30)

Poster 2 - (15:30-16:30)

time [id] title presenter

Parallel NU03 - Yangtze 1 (14:00-15:30) Parallel NU03

PoS(ICRC2015)1236 192 192 225 247 247 203 203 200 200 199 191 166 182 176 236 235 142 219 198 226 187 162 213 183 183 185 184 186 158 234 163 190 155 MA, lingling Moritz HÜTTEN, JOHANNESSON, Gudlaugur Gudlaugur JOHANNESSON, GATÉ, Florian GATÉ, Florian CUI, Shuwang CUI, Shuwang WISSEL, Stephanie Daniel WHITESON, DESIATI, Paolo IHONGO, GRACE FENG, Changqing MORTAZAVI MOGHADDAM, Saba IACOVACCI, michele MASTROIANNI, Stefano ROSSETTO, Laura PETROV, Igor KHOKHLOV, Semen SIBATOV, Renat HUSSEIN, Mohammad IYONO, Atsushi IACOVACCI, michele GENOLINI, Yoann Yoann GENOLINI, MOSKALENKO, Igor MOSKALENKO, Igor A.W. STRONG, Rocío GARCÍA GÍNEZ, M. WIEDENBECK, Mikhail AMELCHAKOV, Nicolas PICOT-CLEMENTE, KUMAR, RAJIV Air Showers by rays in the model of relativistic of relativistic model rays in the a > 7 with the ARGO - YBJ detector detector - YBJ a > 7 with the ARGO Electronics for the BGO Calorimeter the BGO Calorimeter for Electronics the sub-array of the Alborz-I array the sub-array of the Alborz-I array GALACTIC COSMIC RAYS AND GALACTIC COSMIC RAYS s of cosmic ray induced extensive induced ray s of cosmic mposition Using Penetrating Particle Penetrating Using mposition t of Extensive the LAAS mini array observation ured by the ARGO-YBJ experiment experiment by the ARGO-YBJ ured ional Structures on Cosmic-Ray Cosmic-Ray on Structures ional BY CRAYFIS GLOBAL DETECTOR BY CRAYFIS GLOBAL DETECTOR r with natural boron for EAS study for EAS natural boron r with physics for high school students school for high physics ansport with the GALPROP Code GALPROP Code with the ansport em response, and calibration of the SLAC T- and calibration em response,

showers using radio detection and simulation simulation and radio detection using showers

[691] The Effects of Three Dimens Effects of Three [691] The Propagation and Interstellar Emissions Emissions and Interstellar Propagation [142] Experimental cosmic ray studies by ray studies cosmic [142] Experimental [559] THE RELATIONSHIP BETWEEN [559] THE RELATIONSHIP Readout on Space-Qualified [984] Report [597] High energy astroparticle astroparticle [597] High energy Fluxes Lepton Prompt Atmospheric of [598] Characterization SOLAR WIND of DAMPE Mission [989] Probing the pseudorapidity region et region the pseudorapidity [989] Probing [374] Observing Cosmic Rays with Smartphones Rays with Smartphones Cosmic [374] Observing method with from Linsley derived spectrum energy [291] The primary simulations heavy compositions of in [826] Measurements, syst [826] Measurements, [416] EAS lateral distribution meas [416] EAS lateral distribution altitude at high flux variations thermal neutron [827] Seasonal 510 Experiment [56] The Influence of Turbulence on the Transport of Energetic Particles of Energetic Transport on the [56] The Influence of Turbulence [1061] Measuring system of the NEVOD-EAS array array of the NEVOD-EAS [1061] Measuring system of cosmic and anisotropy [1060] Spectrum [715] TRACKING COSMIC RAYS COSMIC [715] TRACKING Maximum Developmen [262] Depth of [1267] Study of Cosmic-Ray Tr [1267] Study of Cosmic-Ray Data at YakutskRadio Emission EAS Array diffusion nonlocal [992] A study of radio frequency spectrum emitted by high energy air air emitted by high energy spectrum [992] A study of radio frequency showers with LOFAR [997] Large scintillator EN-detecto ARGO- with the ray energy cosmic the primary of [993] A general estimator YBJ experiment [814] Analysis of GCR Spectra and Co and of GCR Spectra [814] Analysis [548] Recent extensions to GALPROP GALPROP to extensions [548] Recent for correction pile-up with pulse spectrum height [813] Estimated pulse City of Mexico Neutron Monitor Data from the CRIS Instrument on ACE [403] New Calculation of Secondary Antiprotons in Cosmic Rays Cosmic in Antiprotons of Secondary Calculation [403] New Propagation Ray Cosmic Galactic to Approach [401] Bayesian [1072] Reconstruction of the parameter of the [1072] Reconstruction [1076] Theoretical uncertainties in extracting cosmic ray diffusion parameters: parameters: ray diffusion cosmic in extracting uncertainties [1076] Theoretical ratio to carbon the boron air

PoS(ICRC2015)1236 209 209 164 164 179 179 160 160 195 195 206 206 207 174 173 144 139 138 233 238 196 165 248 151 175 205 157 157 193 237 SVEN, Schoo SAPUNDJIEV, Danislav Danislav SAPUNDJIEV, PRODANOVIC, Tijana Tijana PRODANOVIC, SASAI, Yoshinori IKEDA, Daisuke KATAYOSE, Yusaku BORISOV, Alexander Andrew ROMERO-WOLF, WISSEL, Stephanie BUITINK, Stijn Hiroki ROKUJO, PARK, Jeongmin RYABOV, Vladimir LEE, Jik Sven SCHOO, GHERGHEL-LASCU, GHERGHEL-LASCU, Alexandru GHERGHEL-LASCU, Alexandru Justin VANDENBROUCKE, VALORE, Laura PETROV, Igor BORISOV, Alexander RAWLINS, Katherine Katherine RAWLINS, MA, lingling BERGMAN, Douglas e of the Silicon Charge Detector for Detector Charge e of the Silicon libration for light primaries in the light primaries libration for of Cosmic Ray Air Shower Particles Particles Air Shower Ray of Cosmic ic ray observation: high sensitive ic ray observation: es: the Distributed Electronic Cosmic- Electronic es: the Distributed UCTION CROSS SECTION IN THE CROSS SECTION UCTION ERGIES $E_{lab} \sim 75$ TEV \sim 75$ $E_{lab} ERGIES n-winter cycles by observation at by observation cycles n-winter raction models on the reconstruction the reconstruction on models raction enkov hybrid reconstruction hybrid reconstruction enkov the Extensive Air Shower using the using Shower the Extensive Air or in KASCADE-Grande with model KASCADE-Grande with or in EAS muon component - comparison of - comparison EAS muon component nstruction of a ground-based neutron neutron of a ground-based nstruction Electronics for YAC-III detectors for Electronics he Tien Shan mountain station and the station and he Tien Shan mountain Ray Data Centre (KCDC) Ray Data Centre MOUNTAIN EXPERIMENT WITH MOUNTAIN (SciCRT) at Mt. Sierra Negra, Mexico at Mt. Sierra Negra, (SciCRT)

Beam in Telescope Array Array Beam in Telescope

for galactic cosmic ray monitoring and space weather applications applications weather space and ray monitoring cosmic galactic for

[119] COSMIC RAYS: A VIEW INTO GALACTIC INTERACTIONS AND THE AND THE INTERACTIONS INTO GALACTIC RAYS: A VIEW [119] COSMIC NEW PHYSICS [1349] Design, Fabrication and Performanc Fabrication [1349] Design, [338] The KASCADE Cosmic [623] The new shower system of t system shower [623] The new emulsion film and high speed readout system system readout speed film and high emulsion monitor for the ISS-CREAM experiment Detectors Bottom Counting [433] Top and investigations ray of future cosmic goals the ISS-CREAM [1007] On the optimisation of the co optimisation [1007] On the [923] Xmax reconstruction based on radio detection of air showers air showers of detection on radio based [923] Xmax reconstruction cosm for detector emulsion [1009] Latest [845] What number of cosmic ray events do we need to measure source to measure do we need ray events of cosmic [845] What number correlations? catalogue of TibetASgamma experiment of TibetASgamma experiment [784] ESTIMATION OF CHARM PROD AT EN CONE KINEMATIC FORWARD ACCORDING TO THE HIGH XREC TWO-STOREY [244] Development of a Front-End [245] ‘HADRON-55’ COMPLEX SETUP FOR STUDY OF HADRON [245] ‘HADRON-55’ COMPLEX EAS RAY PART OF COSMIC THE CENTRAL WITHIN INTERACTIONS CORES [444] Aerosol in spring-summer-autum [444] Aerosol of KASCADE-Grande observables of KASCADE-Grande observables Observatory ray PROJECT [1331] THE ARCADE Yakutsk EAS array in 2004-2013. [1337] Detecting particles with cell phon particles [1337] Detecting [580] Primary energy reconstruction from the S(500) observable recorded with recorded the S(500) observable from energy reconstruction [580] Primary detector the KASCADE-Grande inte [581] Effects of the new hadronic [910] Test for the Radio Detection of Detection Radio [910] Test for the data from the Muon Tracking Detect Tracking data from the Muon Ray Cosmic for SciBar system of a data acquisition [911] Upgrade Telescope Electron [839] Imaging and non-imaging Cher and non-imaging [839] Imaging development of [1017] Longitudinal [838] ARGO-YBJ absolute energy scale ca energy scale absolute [838] ARGO-YBJ [794] A Function to Describe Attenuation Attenuation to Describe [794] A Function in Snow shadow the Moon by using multi TeV region

PoS(ICRC2015)1236 145 145 152 152 239 239 228 202 243 148 223 146 224 222 137 241 210 201 240 221 221 204 177 194 181 217 218 197 MISHRA, RAJESH KUMAR KUMAR RAJESH MISHRA, LINK, Jason Jason LINK, CHIAVASSA, Andrea G. CHIRITOI, giuseppe DI SCIASCIO, TIMOFEEV, Lev BENZVI, Segev ANTONOVA, Valentina Xunxiu ZHOU, DE MITRI, Ivan PUSTILNIK, Lev IVANOV, Dmitri HUEGE, Tim DE MITRI, Ivan BALABIN, Yury RYABOV, Vladimir GHELFI, Alexandre Alexandre GHELFI, Yves Marie Laurent DEROME, Alain David MAURIN, OSHIMA, Akitoshi HUSSEIN, Mohammad PROSIN, Vasily HU, Hongbo JIA, Huanyu PETROV, Igor TIAN, Zhen footprint stretching as an effect stretching footprint through the study of the LDF in d on the energy of cosmic ray electron electron ray cosmic of d on the energy Yakutsk. Comparison with results of of results with Comparison Yakutsk. -rays in the atmosphere: seasonal seasonal -rays in the atmosphere: torms electric field on intensity of field on intensity electric torms nd-based calibration of orbital calibration nd-based Cosmic Rays to the Excesses of the Excesses to Rays Cosmic rgy particle observation based on the based observation particle rgy rved by GRAPES-3 array during 2013- array during rved by GRAPES-3 rbulent Plasmas: Analytical Theory Analytical Theory Plasmas: rbulent ts with the ARGO - YBJ experiment - YBJ experiment the ARGO ts with on component of cosmic rays with with rays of cosmic on component the LHAASO experiment to separate to separate experiment the LHAASO thunderstorm atmosphere on detection of on detection atmosphere thunderstorm fields fields

[454] Characteristic features of NM counts in relation to CMEs and CMEs and to in relation counts of NM features [454] Characteristic Magnetic [864] Barometric effect of the neutr [864] Barometric [1029] EAS age and energy determinations [1029] EAS age and energy determinations the neutron component of cosmic rays of cosmic component the neutron thunders [15] Effects of the near earth YBJ at ray electron cosmic the ground experiment ARGO-YBJ with the meters from the core the first few station and Mirny station at the Antarctic for wind effect consideration Mt. Hermon in Israel. [930] Effect of electric fields of [930] Effect of electric [462] The study of cosmic rays with a wide-angle Cherenkov telescope telescope Cherenkov wide-angle rays with a of cosmic [462] The study at of Air Showers [220] An Estimate of the Live Time of Optical Measurements the South Pole [466] Atmospheric effects on the grou effects [466] Atmospheric LHAASO with for dark matter [564] Search Dt t of [464] A study of the capability primary mass groups samples UV Telescopes [659] Design and Performance of the ISS-CREAM Boronated Scintillator Scintillator Boronated of the ISS-CREAM and Performance [659] Design [1036] Variations of low energy gamma energy of low [1036] Variations for ultrahigh-ene [500] Perspectives [1031] ARGO-YBJ measurements on the EAS- [1031] ARGO-YBJ measurements on [858] Search for EeV Protons of Galactic Origin Origin of Galactic EeV Protons for [858] Search experiment calibration of the LOPES amplitude [651] Revised absolute field of the geomagnetic and occurrence experiment space LORD lunar orbital [974] Measurement of shower fron [974] Measurement of shower [257] Mass Composition of Cosmic Rays of the energy region 10^16 – 10^18 10^16 region Rays of the energy Cosmic of [257] Mass Composition Array at Small Cherenkov by data the eV [250] On the Contribution of "Fresh" [250] On the Contribution fiel electric [256] Effects of thunderstorms and Simulations and Simulations Tunka- the data of the by spectrum Energy [887] All particle CR array. prototype HiSCORE Secondary Particles other installations [67] Diffusion of Cosmic[67] Diffusion Rays in Tu [1084] Analysis of air showers obse [1084] Analysis of [455] Neutron Monitors and cosmic-ray data for solar modulation studies: studies: modulation solar for cosmic-ray data Monitors and [455] Neutron series. time 2. Modulation 2014 with a new time measuring system. system. time measuring with a new 2014

PoS(ICRC2015)1236 136 136 244 244 232 232 167 167 141 141 149 149 245 245 211 159 140 147 208 154 161 220 229 153 281 172 172 168 169 171 170 227

, Gordana ■ MORI, Nicola MAKHMUTOV, Vladimir OSHIMA, Akitoshi Akitoshi OSHIMA, TEŠI LEIGUI DE OLIVEIRA, Marcelo GARZON, Juan A. Juan GARZON, MARROCCHESI, Pier Simone SHINOZAKI, Kenji Henrike FLEISCHHACK, STASIELAK, Jaroslaw TKACHEV, Leonid Charles TIMMERMANS, SILUSZYK, Marek SILUSZYK, Marek SHCHEGOLEV, Oleg SHIMMIN, Chase Owen ZHANG, Shoushan BADONI, Davide BERTAINA, Mario KINDIN, Victor Victor KINDIN, IUPPA, Roberto giuseppe DI SCIASCIO, Anatoly PETRUKHIN, A. Juan GARZON, YASHIN, Igor SHARAKIN, Sergey PILO, Federico

Events experiment Events experiment ic rays interpreted ic o complementary approaches for approaches o complementary detector for the regular study of of study regular for the detector ral distribution functions in EAS at distribution ral acquisition system for the MonRAt for the MonRAt system acquisition high-Z material in nuclear waste in nuclear high-Z material ergy cosmic ray observation by ray observation ergy cosmic the Extreme Energy systems for the KLYPVE experiment experiment the KLYPVE for systems gy spectrum of cosm atmosperic muons atmosperic 2014

ray properties ray properties

[1106] A high performance time of flight measuring system introduced in introduced system time of flight measuring performance high [1106] A experiment. the GRAPES-3 [630] The Giant Radio Array for Neutrino Detection Detection for Neutrino Radio Array [630] The Giant wide field-of-view telescope telescope wide field-of-view feasible? showers extensive air detection of [685] Is radar detector of the TUS orbital calibration [681] The in-flight [353] The instrumentation of the data of [353] The instrumentation tl rays in cosmic spectrum the iron measuring [352] A template method for with Cherenkov telescopes [947] New concept of very high en concept [947] New [705] Photon Counting with a Fully Digital FDIRC (Focused Differential Differential (Focused a Fully Digital FDIRC with Counting [705] Photon Cherenkov) Internal Reflection storage facilities with storage facilities in at several latitudes atmosphere in the ray measurements [1041] Cosmic October, [615] "First results from Run1 of from Run1 [615] "First results study of detection of [71] Feasibility [771] AMON: transition to real-time operations operations to real-time [771] AMON: transition of optical [1171] Development [892] KASCADE-Grande ener high altitude high altitude of measurements high-performance for Detector [476] An Electric Field ionosphere field in the the electric models interaction hadronic with post-LHC [324] PMT Array Nonlinearity On-line Calibration using the Photoelectron Meter the Photoelectron using Calibration On-line [324] PMT Array Nonlinearity Telescope Cherenkov for Image Air [40] Electron and thermal neutron late and [40] Electron for the CRAYFIS experiment infrastructure data acquisition [871] Cloud-based THE INTERPLANETARY MAGNETIC FIELD in 1968-2014 FIELD in 1968-2014 MAGNETIC THE INTERPLANETARY cosmic tw TRAGALDABAS: [1204] URAGAN & rays of cosmic survey the regular OF GALACTIC VARIATIONS PERIOD OF LONG [1055] FEATURES OF TURBULENCE THE WITH INTENSITY IN RELATIONS RAY COSMIC [1168] The coordinate-tracking detector based on the drift chambers chambers on the drift based detector coordinate-tracking [1168] The [554] Tragaldabas: a high performance a high [554] Tragaldabas: [1209] Cherenkov water calorimeter on the basis of quasispherical modules modules of quasispherical the basis on water calorimeter [1209] Cherenkov rays: for cosmic calorimetry sampling high-altitude [1163] Large-area sensitivity and potential current

[id] title [id] title presenter board

Poster 2 DM and NU - Amazon Foyer Terrace (15:30-16:30)

PoS(ICRC2015)1236 283 283 284 284 259 258 258 263 263 288 288 256 256 255 286 289 260 251 276 268 293 269 282 266 271 272 290 290 253 292 252 294 291 280 254 VANKOVA-KIRILOVA, Galina TAKETA, Akimichi GALATA, salvatore DORNIC, Damien Damien DORNIC, FUSCO, Luigi Antonio Luigi FUSCO, FANG, Ke FANG, Ke TURPIN, Damien Damien TURPIN, EULER, Sebastian GONZALEZ, Javier STROEM, Rickard Reetanjali MOHARANA, ZOLL, Marcel Andrea SANTANGELO, GEIßELSÖDER, Stefan Christophe HUGON, MIURA, Makoto Matteo SANGUINETI, SCHUMACHER, Johannes Jan AUFFENBERG, DA SILVA, Luiz LIU, T.C. PAVALAS, Gabriela GIACINTI, Gwenael GIACINTI, Jannik HOFESTÄDT, KHIALI, Behrouz BRAYEUR, Lionel CASIER, Martin BUSTAMANTE, Mauricio Andrii NERONOV, GORA, Dariusz HEID, Thomas according to the photospheric model model the photospheric to according in the core region of radio galaxies due galaxies of radio region in the core neutrino point source searches in searches source point neutrino utrino sources with the ANTARES the ANTARES with sources utrino of VHE and UHE cosmic rays with VHE and UHE cosmic of energy cosmic neutrinos from from neutrinos cosmic energy atmospheric neutrinos in KM3NeT/ARCA KM3NeT/ARCA in neutrinos atmospheric Imaging Air Cherenkov Telescopes Telescopes Air Cherenkov Imaging high-energy neutrinos and cosmic rays cosmic rays and neutrinos high-energy Gamma-ray burst with 4 years of Gamma-ray ophysical counterparts of IceCube of IceCube counterparts ophysical IceCube astrophysical neutrino signal signal neutrino astrophysical IceCube pe neutrino events in KM3NeT/ORCA KM3NeT/ORCA in events pe neutrino SO detector to UHE tau neutrino neutrino to UHE tau SO detector th the ANTARES neutrino telescope telescope th the ANTARES neutrino h using Neutrino Oscillations Oscillations Neutrino h using Blazars with the ANTARES telescope telescope with the ANTARES Blazars

[578] Rejection of atmospheric muons in KM3NeT/ORCA KM3NeT/ORCA in muons of atmospheric [578] Rejection [1151] GEANT4 simulation of optical modules in neutrino telescopes telescopes in neutrino of optical modules [1151] GEANT4 simulation [899] Sensitivity of the JEM-EU as sources magnetars [1272] Testing ICb [300] Model-independent search for ne [300] Model-independent neutrino events events neutrino view an updated with JEM-EUSO: of neutrinos [585] Observation wi for nuclearites [351] Search telescope neutrino [1094] Improved methods for solar Dark Matter searches with the Matter searches Dark for solar methods [1094] Improved telescope IceCube neutrino [362] Search for extragalactic astr for extragalactic [362] Search [1120] Reconstruction of track-ty [1120] Reconstruction - few TeV) GeV (100 [282] Low-energy the ANTARES data the ANTARES Veto Array to Identify a Surface [508] Simulation Studies for the South Pole at Neutrinos Astrophysical the Southern sky with IceCube [341] Searches for neutrinos from for neutrinos [341] Searches [1370] Neutrinos from galactic compact binaries binaries compact galactic from [1370] Neutrinos on Simulation based propagation in neutrino [1113] Effect of local terrain data with topographic [491] Self-veto approaches to reject [491] Self-veto approaches with the ANTARES telescope of the Eart [855] Spectrometry Air- for Efficient Telescope Study of an Air Cherenkov [955] Design of IceCube the South Pole on Top at at 100 TeV Detection Shower [493] Search for GRB neutrino emission GRB neutrino for [493] Search [175] Detection of tau neutrinos by tau neutrinos of [175] Detection in Super-Kamiokande decay search [87] Nucleon [179] Galactic contribution to the contribution [179] Galactic to particle acceleration by magnetic reconnection reconnection magnetic by to particle acceleration the IceCube with Bursts Ray from Gamma neutrinos [193] A search for Detector Neutrino of ultra- predictions [111] Improved bursts from gamma-ray [1149] High energy neutrino production production neutrino energy [1149] High [748] Shower reconstruction with the KM3NeT/ORCA detector detector with the KM3NeT/ORCA reconstruction [748] Shower [624] Time-dependent search of high search [624] Time-dependent [709] Diffuse CR, neutrino and gamma-ray fluxes from starburst and star- and starburst fluxes from and gamma-ray CR, neutrino [709] Diffuse model' 'escape the within forming galaxies variable

PoS(ICRC2015)1236 274 274 61 76 270 270 265 285 285 111 111 273 273 114 77 267 267 262 262 261 51 75 90 66 278 278 264 287 275 277 295 257 279 HOLCH, Tim HOLCH, SCHÜSSLER, Fabian NELLES, Anna NELLES, Anna GORA, Dariusz GORA, Dariusz Anthony BROWN, HOFFMANN, Ruth Ruth HOFFMANN, MARX, Ramin MARX, Ramin SHAYDUK, Maxim Gabriele COLOGNA, FELDE, John FELDE, John SCHIMP, Michael SCHIMP, Michael BENZVI, Segev ARMSTRONG, Thomas INOUE, Susumu KUWABARA, Takao KUWABARA, TOSI, Delia Kyle JERO, EGER, Peter FERNÁNDEZ, Pablo Pablo FERNÁNDEZ, STASIK, Alexander JIA, Huanyu SAPIENZA, Piera STRANSKY, Dominik Richard ENGEL, Ralph MAGGI, Giuliano BARWICK, Steven

lescope Array observations for Neutrino-Triggered Alerts from Alerts Neutrino-Triggered for es for Neutrinos from GRBs with from GRBs Neutrinos es for ocessing Software to Error Detection Detection Software to Error ocessing unterpart of the puzzling TeV gamma- of the puzzling unterpart clusive lepton flux calculations calculations lepton flux clusive nos from dust obscured Blazars Blazars obscured from dust nos ed ARIANNA Hexagonal Radio Array Hexagonal ed ARIANNA opportunity programs in IceCube in IceCube programs opportunity utron neutron star PSR J1614-2230 J1614-2230 star PSR neutron utron new Suzaku new Gamma-ray Cherenkov Telescope for Telescope Gamma-ray Cherenkov is sensitivity evaluation of the sensitivity is he ARIANNA Hexagonal Radio Array Radio he ARIANNA Hexagonal the Cherenkov Telescope Array Array Telescope the Cherenkov he Cherenkov Te eCube's track-like HESE events. eCube's track-like HESE events. Cherenkov Telescopes Telescopes Cherenkov ppi Foyer (15:30-16:30) ppi Foyer searches with IceCube

Framework

i

[567] Acoustic properties of glacial ice for neutrino detection and the the and detection neutrino glacial ice for of properties [567] Acoustic Explorer Enceladus [553] Long term lightcurve of the BL Lac object 1ES$\,$0229+200 at TeV of the BL Lac object 1ES$\,$0229+200 lightcurve [553] Long term [61] Analytical Real-Time Analys [550] A concept of long buffer readout system for large-area gamma-ray gamma-ray system for large-area of long buffer readout [550] A concept f iliti and Recovery for Arrays of Analysis of [556] The On-Site of the Studies Carlo [191] Monte Array Telescope the Cherenkov CherenkovArray Telescope [303] Application of Complex Event Pr of Complex [303] Application [600] Exploring the potential X-ray co the potential [600] Exploring [217] Searches for Gamma-Ray Emission from TeV Binary Candidates Binary Candidates from TeV Emission Gamma-Ray for [217] Searches with HAWC [605] MESS: A Prototype for t Pipelines ray source HESS J1507-622 with [820] Performance of the Complet [820] Performance with t Neutrinos [822] Measuring [807] IceTop as Veto for IceCube IceCube as Veto for [807] IceTop [800] Astrophysical interpretation of small-scale neutrino angular angular neutrino of small-scale interpretation [800] Astrophysical correlation [1360] MCEq - numerical code for in numerical - [1360] MCEq neutri high-energy for [241] Search [644] Fermi-LAT studies of Ic [644] Fermi-LAT [848] Online and Near Realtime Search Realtime Near and [848] Online ICb by measured spectrum energy neutrino electron and muon [417] Atmospheric detector first year of IceCube-86 IceCube IceCube Neutrinos with Trapped in estimate energy muon and reconstruction [1282] Muon track detector the KM3NeT/ARCA in KM3NeT/ARCA events neutrino of cascade-type [1186] Reconstruction [96] Structure of Massive Protone [96] Structure [504] The Online Follow-Up Framework Framework Follow-Up [504] The Online [267] Neutrino-triggered target-of- [267] Neutrino-triggered potential status and physics [95] GADZOOKS!:

[id] title [id] title presenter board

Poster 2 GA - Mississi

PoS(ICRC2015)1236 85 85 101 101 92 92 104 104 103 103 121 115 115 67 84 88 78 68 69 80 70 53 54 74 86 94 112 112 102 91 65 55 83 83 BISSALDI, Elisabetta BONARDI, Antonio BONARDI, KAWATA, Kazumasa RANDO, Riccardo Riccardo RANDO, WARD, John E WARD, John WU, Xin FIDALGO, David Xunxiu ZHOU, MAIER, GERNOT DANIEL, Michael PANDEL, Dirk RAAB, Susanne STEFANIK, Stanislav DE PERSIO, Fulvio LAMANNA, Giovanni LAMANNA, Giovanni TEMME, Fabian LIU, Maoyuan luobu DANZENG, SHAYDUK, Maxim SIZUN, Patrick Yves Juan CORTINA, LAUER, Robert LAUER, Robert Teresa MONTARULI, WEINSTEIN, Amanda SINITSYNA, Vera Georgievna Silvia VERNETTO, Francesco VIGORITO, Carlo PETRASHYK, Andriy Andriy PETRASHYK, hold to a few tens of GeV by using tens of GeV to a few hold opment for Cherenkov light detection detection light for Cherenkov opment s of shell-type SNRs at different ages ages at different SNRs s of shell-type lligent Array Trigger for the Cherenkov Cherenkov for the Array Trigger lligent calibrate the Large Size Telescope Size Telescope the Large calibrate ementation of the optical system of the optical ementation es of Candidate Sites for the of Candidate es ch and Development Studies for the Studies and Development ch em for NectarCAM proposal for proposal em for NectarCAM ht Moon observations with MAGIC with MAGIC ht Moon observations 100 TeV Gamma-Ray Astronomy Gamma-Ray Astronomy 100 TeV Bursts detection with LHAASO Bursts for Camera Technologies for the Technologies Camera for high-energy GRB detection using detection using GRB high-energy Array Array

Distribution of EAS for the Distribution

Size Telescope of the Cherenkov Telescope Array Array Telescope of the Cherenkov Size Telescope

[62] Central Acceptance Testing Testing Acceptance [62] Central CherenkovArray Telescope camera of the Cherenkov Telescope Array Telescope Cherenkov of the camera [308] Using UV-pass filters for brig filters UV-pass [308] Using [284] Design of a prototype device to of a prototype [284] Design [285] Prospects for Gamma Ray [285] Prospects for Gamma [343] Application of Maximum Entropy Deconvolution to $\gamma$-ray skymaps skymaps to $\gamma$-ray of Maximum Entropy Deconvolution [343] Application astronomy $\gamma$-ray in changes [189] Significance for signal [347] Investigating the X-ray emission from the Galactic TeV Gamma-ray TeV Gamma-ray from the Galactic emission the X-ray [347] Investigating J1908+06 Source MGRO [180] Prospects On Testing Lorentz Invariance Violation With The Violation Invariance Lorentz Testing On [180] Prospects CherenkovArray Telescope [209] Monte Carlo Performance Studi Performance Carlo [209] Monte [346] Data processing activities at the MAGIC site site at the MAGIC activities [346] Data processing energy thres the ARGO-YBJ [248] Lowering events shower front the double CherenkovArray Telescope [699] SiPM and front-end electronics devel electronics [699] SiPM and front-end characteristic [28] The very high energy [47] 40-Gbps Data-Acquisition Syst Data-Acquisition [47] 40-Gbps [536] A concept of wide-angle Cherenkov gamma-ray instrument with with instrument gamma-ray Cherenkov of wide-angle [536] A concept minimal imaging Large of the Cherenkov Middleware for the Data Acquisition [610] Modern Telescope [138] Study on the Sensitivity of a.s.l at an altitude 5200 m technique the single-particle Array Telescope the Cherenkov [174] FACT - First Energy Spectrum from a SiPM Cherenkov Telescope Telescope a SiPM Cherenkov Spectrum from Energy First [174] FACT - [176] Silicon Photomultiplier Resear Photomultiplier [176] Silicon Management Array Data Telescope [236] Cherenkov [252] The Instrument Response Function Format for the Cherenkov for the Cherenkov Format Function Response [252] The Instrument Telescope Telescope Array the using Separation and Gamma/Hadron Determination [112] Energy Lateral [395] Simulations of a Distributed Inte of a Distributed [395] Simulations [238] A high-level analysis framework for HAWC HAWC for framework analysis [238] A high-level for of the SST-1M camera commissioning and [65] Characterization Array Telescope the Cherenkov [130] Construction of a Schwarzschild-Couder telescope as a candidate for candidate as a telescope of a Schwarzschild-Couder [130] Construction Impl Array: Telescope the Cherenkov

PoS(ICRC2015)1236 79 79 71 71 58 64 64 73 73 124 124 87 87 120 120 95 63 63 81 72 59 96 123 97 122 82 100 119 119 106 113 107 62 105 56 COLIN, Pierre Pierre COLIN, CAROSI, Alessandro CAROSI, Alessandro SATALECKA, Konstancja STEFANIK, Stanislav STEFANIK, Stanislav SUSHCH, Iurii SUSHCH, Iurii HAYASHIDA, MasaakiHAYASHIDA, RANDO, Riccardo Riccardo RANDO, NIEMIEC, Jacek SCHÜSSLER, Fabian PRANDINI, Elisa Anthony BROWN, EBR, Jan OSTROWSKI, M. CAROSI, Alessandro Michael DUVERNOIS, TOSCANO, Simona TOSCANO, LAMANNA, Giovanni PRANDINI, Elisa MARX, Ramin MARX, Ramin Tarek HASSAN, TIBALDO, Luigi Dorota SOBCZYNSKA, MAIER, Gernot DANIEL, Michael ROVERO, Adrian C. Gamma-ray Binary HESS observations of the microquasars of the microquasars observations of the candidate extreme BL Lac extreme of the candidate logue at the ASI Science Data Center Center Data Science at the ASI logue of the Cherenkov Telescope Array Array Telescope of the Cherenkov throughput calibration of the SST- of the calibration throughput events in the IACT observations observations events in the IACT blazars through gamma-gamma gamma-gamma through blazars Unassociated Fermi Objects with MAGIC with Objects Fermi Unassociated ng for the Cherenkov Telescope Array Telescope for the Cherenkov ng in the vicinity of 1ES 0229+200 0229+200 in the vicinity of 1ES gorithms for the Cherenkov Telescope Telescope Cherenkov for the gorithms meters multilayer glass composite glass composite multilayer meters ay acceptance of the MAGIC of ay acceptance scope Structure for the Cherenkov the Cherenkov for Structure scope BL-Lac gamma-ray blazar PKS 1424+240 blazar PKS BL-Lac gamma-ray r the readout electronics of the r the readout olved pulsar wind nebula HESS J1303-631 nebula olved pulsar wind of the SST-1M prototype of the edium-size telescopes within the within telescopes edium-size C telescopes under moonlight moonlight under C telescopes for a HAWC Southern Observatory Observatory Southern a HAWC for servations of the Array Array

A design proposed for the Cherenkov Telescope Array developed at Array developed Telescope Cherenkov the for proposed design

bti [203] Performance of the MAGI of the [203] Performance [418] Detector Considerations Considerations [418] Detector [995] Radio observations of the ev [995] Radio [271] Observations of hard spectrum spectrum of hard [271] Observations object RBS 0723 RBS 0723 object cata [505] The very high energy source of the Cherenkov the Large Size Telescope for system [58] The Optical Telescope with ATC [509] MAGIC discovery and observation [509] MAGIC discovery and [78] DigiCam - Fully Digital Compact Read-out and Trigger Electronics for for Electronics Trigger and Read-out Compact [78] DigiCam - Fully Digital Array Telescope Cherenkov for the proposed Telescope the SST-1M [104] Real-time atmospheric monitori atmospheric [104] Real-time GRS 1915+105, Circinus X-1 and V4641 Sgr X-1 and V4641 Circinus GRS 1915+105, calibration strategy [249] Camera Array Telescope Cherenokov for proposed telescopes of the GCT calibration and muon-based [107] Flasher Array Telescope the Cherenkov telescope optical a wide-field using [278] Simultaneous H.E.S.S. and RXTE [278] Simultaneous [129] Redshift measurement of the [129] Redshift [370] Prototype of the SST-1M Tele gamma-r [251] Study of hadron and 1M prototype for the Cherenkov Telescope Array Array Telescope the Cherenkov for 1M prototype Strategy Calibration [181] The Camera Telescope estimation background an improved towards telescopes: [77] Constraints on particle acceleration in Rosette and Orion nebulae nebulae and Orion in Rosette acceleration on particle [77] Constraints observations with Fermi-LAT [305] Using muon rings for the optical muon rings [305] Using [185] Unexpected gamma-ray signal signal gamma-ray [185] Unexpected [447] Long-term TeV Ob mirror CherenkovArray Telescope of environments cluster [999] Probing pi0 single from [467] The background J0632+057 with VERITAS [83] TARGET: toward a solution fo solution toward a [83] TARGET: [204] First results on the two square [204] First results [469] Layout design studies for m studies design [469] Layout [202] Parallel waveform extraction al extraction waveform [202] Parallel Analysis Array Real-Time CherenkovArray Telescope

PoS(ICRC2015)1236 32 32 118 118 89 89 19 19 126 126 30 30 27 27 44 44 20 28 6 4 21 108 108 110 52 52 93 117 116 109 60 99 98 57 125 SATALECKA, KonstancjaSATALECKA, F Zigfried HAMPEL-ARIAS, SANDOVAL, ANDRES SANDOVAL, ANDRES Emmanuel MOULIN, TEMME, Fabian TEMME, Fabian IYONO, Atsushi VIGORITO, Carlo BITEAU, Jonathan Ruben LOPEZ-COTO, SUSHCH, Iurii MITCHELL, Alison Alison MITCHELL, Laura VALORE, CUI, Shuwang DANIEL, Michael BISSALDI, Elisabetta KOBYLINSKI, Zbigniew TAKAMARU, Hisanori ANZORENA MÉNDEZ, Marcos MÉNDEZ, ANZORENA Marcos Alfonso BARBASHINA, Natalia SCHRÖN, Martin DUBEY, arvind BARBASHINA, Natalia MATSUBARA, Yutaka MORAAL, Harm DUBEY, arvind

fferent cut off Rigidity from Galactic fferent cut off Rigidity from detection by the Cherenkov Telescope by the Cherenkov detection cements of 29 September 1989 and 20 20 1989 and September of 29 cements pliers for the Dual-Mirror Medium-Sized Medium-Sized the Dual-Mirror for pliers n on the Solar Neutron Telescope at Neutron Telescope on the Solar n the gamma-ray emission from the binary from emission the gamma-ray e URAGAN and neutron monitors' data monitors' neutron and e URAGAN lar Neutrons from the ISS and High the ISS and High from lar Neutrons ry distrurbances observed by muon observed by ry distrurbances series statistics analysis for the muon for the analysis statistics series s of neutron monitor data sets monitor s of neutron and continuous wavelet analyses to analyses wavelet and continuous ation of Gamma-ray Astronomy with the LHAASO ation of Gamma-ray HAWC gamma-ray observatory HAWC gamma-ray NectarCAM camera for the Cherenkov Telescope Array Telescope Cherenkov for the camera NectarCAM Negra, Mexico using pulse shape analysis analysis shape pulse Negra, Mexico using

it

2008 – 2014 – 2014 2008

[329] Data model issues in the Cherenkov Telescope Array project project Array Telescope the Cherenkov in issues model [329] Data for [1193] Comparison of muon hodoscop of muon [1193] Comparison [513] The Infrastructure of the time [513] The Infrastructure [582] Neutron monitor counting rates at di rates monitor counting [582] Neutron Cosmic rays discriminatio [1257] Neutron-$\gamma$ Mountain Observatories in association with a flare on July 8, 2014 2014 July 8, with a flare on association in Mountain Observatories enhan ground-level [53] The cosmic-ray 2005 January Sierra [88] Simultaneous Observation of So Observation [88] Simultaneous [1203] Non-geoeffective interplaneta [1203] Non-geoeffective [1344] Application of correlative [1344] Application of correlative day on Anomalous ray Daily variation [576] Cosmic [1329] Monitoring Environmental Water with Ground Albedo Neutrons from from Albedo Neutrons with Ground Water Environmental [1329] Monitoring Rays Cosmic of correctnes studies comparative URAGAN hodoscope [829] Gamma Hadron Separation usingPairwise Compactness Method HAWC with [1000] Role of the disk environment in the disk environment of [1000] Role Telescopes of the Cherenkov TelescopeArray and dwarf of novae observations follow-up gamma-ray [292] Very high energy MAGIC telescopes novae with the system 2883 PSR B1259-63/LS [372] Performance of Silicon Photomulti of Silicon [372] Performance [274] Cooling Tests of the [274] Cooling Array Telescope Cherenkov for the demonstrator Camera [294] INFN [298] FACT – Calibration of Imaging Atmospheric Cerenkov Telescopes with Telescopes Cerenkov Imaging Atmospheric Calibration of [298] FACT – Muon Rings application and its emulsion in nuclear trajectories [296] Simulation of electron Project Bursts for Gamma-Ray [723] Prospects Array [63] Calibration of the Cherenkov Telescope Array Array Telescope the Cherenkov [63] Calibration of [529] Upgrade paths for the paths for [529] Upgrade on Observ [470] Expectation [424] THE ARCADE RAMAN LIDAR SYSTEM FOR THE CHERENKOV THE CHERENKOV FOR LIDAR SYSTEM RAMAN ARCADE [424] THE ARRAY TELESCOPE [498] A Generic Algorithm for IACT Optical Efficiency Calibration using Muons Muons using Efficiency Calibration IACT Optical for Algorithm [498] A Generic

[id] title [id] title presenter board

Poster 2 SH - Theater Foyer (15:30-16:30) Poster 2 SH - Theater Foyer

PoS(ICRC2015)1236 41 41 40 38 38 29 29 37 37 35 35 39 17 9 5 42 18 7 34 8 31 2 24 3 26 25 25 23 11 43 22 13 13 BANJAC, Saša ENRIQUEZ-RIVERA, Olivia BAKALDIN, Alexey BAKALDIN, ANZORENA MÉNDEZ, Marcos MÉNDEZ, ANZORENA Marcos Alfonso YANG, Di USOSKIN, Ilya USOSKIN, Ilya Anastasia PETUKHOVA, USOSKIN, Ilya Jose VALDES-GALICIA, VELINOV, Peter Lev DORMAN, VELINOV, Peter MAKHMUTOV, Vladimir PETUKHOV, Ivan PETUKHOV, Ivan LARA, Alejandro Pierre-Simon MANGEARD, MUNAKATA, Kazuoki MISHEV, Alexander BASHINDZHAGYAN, George KRYAKUNOVA, Olga HERBST, KonstantinHERBST, STEIGIES, Christian Alain David MAURIN, DA GAMA VELHOFERREIRA Luisa ARRUDA, David RUFFOLO, GOLOLOBOV, Petr Petr GOLOLOBOV, tronics for the SciCRT detector at SciCRT detector for the tronics ic ray fluxes in the atmosphere atmosphere ic ray fluxes in the ts at the Neumayer III station and on III station ts at the Neumayer on studies: 1. Systematic uncertainties uncertainties Systematic 1. on studies: CRT) at Mt. Sierra Negra, Mexico at Mt. Sierra Negra, CRT) e Christian-Albrechts-University Kiel Christian-Albrechts-University e cements (GLE) of High Energy of High Energy (GLE) cements eutron monitors count rate dependence count rate dependence eutron monitors USING HAWC SCALER SYSTEM USING HAWC mospheric Ionization Induced by the Induced Ionization mospheric ionization in the Earth's atmosphere atmosphere the Earth's in ionization pply module of a prototype energy energy pply module of a prototype in a wide energy range. range. energy in a wide eal-time and historical Neutron Neutron and historical eal-time for solar wind plasma measurement plasma measurement wind for solar

Negra, Mexico Negra, Mexico

[525] The background conditions of cosmic ray ion charge charge ray ion of cosmic conditions background [525] The experiment in MONICA measurements [722] SOLAR EVENT SIMULATIONS [1089] Long-term measurements of cosm measurements [1089] Long-term [18] Computation of ion production rate profiles induced by cosmic rays induced rate profiles of ion production [18] Computation 59 GLE level enhancement 2000 ground day 14 July Bastille during [17] Computation of ionization effect due to cosmic rays in polar to cosmic rays in polar effect due of ionization [17] Computation 2006 December GLE 70 on 13 during middle atmosphere ray of the cosmic [1023] Estimation GLE71 during [1026] Current status of MuSTanG at th status of MuSTanG [1026] Current [1285] Frequency analysis of the Mexico City neutron monitor time series series monitor time of the Mexico City neutron analysis [1285] Frequency using fractal and wavelet [482] Ion acceleration by shock surfing surfing by shock [482] Ion acceleration Level Enhan of Ground [105] Database [101] A mini neutron monitor in Central Antarctica (Dome Concordia) Concordia) (Dome Antarctica in Central [101] A mini neutron monitor Solar Proton Events [1229] Solar Influence on Decay Rate (SIDR) Experiment Rate (SIDR) Experiment Decay on [1229] Solar Influence to of the cosmic ray anisotropy component equatorial of the [489] Relation medium of interplanetary the parameters [74] SENSITIVITY OF THE WORLD-WIDE NEUTRON MONITOR MONITOR NEUTRON [74] SENSITIVITY OF THE WORLD-WIDE APPROACH A REVISITED NETWORK TO SOLAR NEUTRONS: [120] SciBar Cosmic Ray Telescope (Sci Ray Telescope Cosmic [120] SciBar on surrounding structure structure on surrounding end elec front of new [1239] Development Sierra su of the high voltage [307] Design spectrometer Network Detector Muon of the Global muon detector a component as [441] Measurement and simulation of n simulation [441] Measurement and [716] THE SUN SHADOW OBSERVED BY HAWC OBSERVED [716] THE SUN SHADOW [895] Interplanetary shock manifestation in cosmic rays and geomagnetic field field in cosmic rays and geomagnetic manifestation shock [895] Interplanetary At [638] Simulations of Polar-Region Monitor measurements Monitor measurements the ESA GEO with in and Electrons [1230] SEP Protons Spectrometer MultiFuntional 2005 20, of January Enhancement Level Ground [409] The event of ground level enhancement of solar cosmic rays on on rays cosmic of solar enhancement of ground level [409] The event the spectrum 28, 2003: October modulati solar Monitors for [286] Neutron [689] NMDB: the database for r for the database [689] NMDB: [1039] Mini neutron monitor measuremen neutron monitor [1039] Mini the German research vessel Polarstern Polarstern vessel research the German

PoS(ICRC2015)1236 14 14 15 15 12 16 1 10 MEWALDT, Richard GOLOLOBOV, Petr GOLOLOBOV, GOLOLOBOV, Petr GOLOLOBOV, IYONO, Atsushi Pierre-Simon MANGEARD, SDOBNOV, Valery CLAY, Roger

Rays in the Galactic center center Rays in the Galactic MURGIA, Simona Y 6 GROUND LEVEL ENHANCEMENT 6 GROUND LEVEL ENHANCEMENT Y ron Time Delay Distribution and the and Distribution Time Delay ron sturbances of the solar wind using a using wind of the solar sturbances the Causes of Solar-Cycle Variations in SEP Variations in Solar-Cycle the Causes of Forum Theater (16:30-18:30) components of the cosmic ray distribution distribution ray of the cosmic components [1291] Searching for Dark Matter Shining in Gamma Matter Shining [1291] Searching for Dark Rays with LOFAR of Cosmic detection [1373] Radio [1222] An Investigation of Composition and Fluences Jörg HÖRANDEL, [391] Multi-Messenger Aspects of Cosmic Neutrinos Neutrinos of Cosmic Aspects [391] Multi-Messenger AHLERS, Markus

[411] Dynamics of zonal [411] Dynamics during geomagnetic storms storms geomagnetic during 18:00 18:00 17:00 17:00 17:30 16:30 16:30 Rigidity Spectrum of Primary Cosmic Rays up to 16.8GV up to 16.8GV Rays Cosmic of Primary Rigidity Spectrum detector HEAMS muon of the Adelaide [240] Applications [434] Relationship between the Neut between [434] Relationship THE 2014 JANUAR[12] ANALYZING [297] Cosmic ray intensity variations in the 24th solar cycle observed by cycle observed 24th solar in the intensity variations ray [297] Cosmic LAAS experiments [412] Investigation of short-term di of short-term [412] Investigation tensor anisotropy method method anisotropy tensor

time [id] title presenter

High-Light Talks: - World

PoS(ICRC2015)1236 TRINH, Gia KUNNAS, Maike Thomas MURACH, CARR, John COHEN, Christina Christina COHEN, DALLIER, Richard GLASER, Christian Arthur CORSTANJE, PALACIO, Joaquim

ion with the HAWC Observatory Observatory with the HAWC ion Brenda DINGUS,

direction of dwarf spheroidals spheroidals of dwarf direction Matthew WOOD, halo with H.E.S.S. II halo LEFRANC, Valentin radio emission of air showers air showers of radio emission Anna NELLES,

e with very deep observations of the e with very deep observations Searches with the Cherenkov Telescope Telescope the Cherenkov with Searches lar Events - Lessons Learned from Learned Events - Lessons lar

e Air Showers in the Radio Frequency Frequency in the Radio e Air Showers sampling and imaging in the Tunka in the Tunka imaging and sampling eron searches searches eron VON DOETINCHEM, Philip -ray astronomy -ray astronomy Elizabeth HAYS, n: two years of air-shower measurements measurements n: two years of air-shower Dmitriy KOSTUNIN, d Forum Theater (09:00-10:30) d Forum ensive air showers ensive air showers [1312] Combination of shower-front of shower-front [1312] Combination (TAIGA) ray Astrophysics Cosmic and Gamma-ray International Advanced project for monoscopically Algorithm Reconstruction Network-based [1011] A Neural H.E.S.S. with the Experiment observed Air Showers detected [402] First Limits on the Dark Matter Cross-Sect on the Dark Matter [402] First Limits [279] Dark matter search in the inner Galactic in search [279] Dark matter [757] Status of cosmic ray antideut Dark[46] Prospects Matter for Indirect Array (CTA) [1174] Dark Matter searches with Fermi LAT in with Fermi Matter searches [1174] Dark the Dark Matter lifetim [66] Constraining [502] The Tunka Radio Extensio Radio [502] The Tunka MAGIC with cluster Perseus [977] A lateral distribution function for the function distribution [977] A lateral radio through in thunderstorms fields electric atmospheric [492] Probing ext emission from with as measured showers of air wavefront and radio [1067] Polarization LOFAR [549] Multi-scale and multi-frequency studies of cosmic ray air shower radio radio shower ray air of cosmic studies [549] Multi-scale and multi-frequency site CODALEMA at the signals of Extensiv Content [912] The Energy of 30-80 MHz Range [1395] Status overview of gamma [1395] Status overview [389] Solar Energetic Particles and So Particles [389] Solar Energetic Multi-Spacecraft Observations

11:15 11:15 11:00 11:00 12:15 12:15 12:00 12:00 11:30 11:30 11:45 11:15 11:15 11:00 11:00 12:15 12:15 12:00 12:00 11:30 11:30 11:45 11:15 11:15 11:00 11:00 09:45 09:45 09:00 09:00

time [id] title presenter Parallel GA11 Instruments / Prospects - Yangtze 1 (11:00-12:30)

time [id] title presenter Parallel DM04 - Yangtze 2 (11:00-12:30)

time [id] title presenter

Parallel CR12 RadioParallel CR12 (11:00-12:30) - Amazon

time [id] title presenter

Invited ReviewInvited - Worl Talks

Monday 03 August 2015 03 August Monday

PoS(ICRC2015)1236 DI MATTEO, Armando DI MATTEO, Armando ZUNDEL, Zachary KLASSEN, Andreas Nina DRESING, LESKE, Richard M. WIEDENBECK, DRÖGE, Wolfgang BILAND, Adrian BILAND, Barbara PATRICELLI, CAROSI, Alessandro Koji NODA, Silvia VERNETTO, KAHLER, Stephen

d Sources with VERITAS VERITAS with d Sources Josh CARDENZANA, after the major upgrade the major upgrade after Julian SITAREK,

Three Years Operation of the First of the First Operation Three Years transport modeling of energetic of energetic modeling transport GRBs in the very high energy band with with band in the very high energy GRBs h>10^{18.5} eV with the eV with h>10^{18.5} tive Regions as Sources of Large Solar of Large Solar Sources as Regions tive Obtained from Solar Energetic Particle Particle Energetic from Solar Obtained velength observation of Mrk 421 in of Mrk 421 observation velength ike event observed simultaneously by both by both simultaneously observed event ike he eyes of NuSTAR, VERITAS and the {\it VERITAS of NuSTAR, he eyes -ray/X-ray correlation studies in Mrk 421 and in Mrk 421 and studies -ray/X-ray correlation  Cosmic Ray Air Showers Between Ray Air Showers Between Cosmic Forum Theater (14:00-16:00) sms for Longitudinal Spreading of Impulsive SEPs sms Forum Theater (11:00-12:30) Forum Theater servations with Fermi Fermi with servations BISSALDI, Elisabetta [218] Combined fit of spectrum and composition data as measured by the Pierre as measured data composition and fit of spectrum [218] Combined Auger Observatory of Detection [1346] Fluoresence eV and 10^{16.5} Extension (TALE) Array Low Energy Telescope STEREO spacecraft Into Particle Transport [373] Insights Anisotropies [818] Constraints on Mechani Events of Scatter-free Observations from Multispacecraft and [1115] Multi-spacecraft observations 2010 in August events particle solar of series electron for a [91] First near-relativistic electron sp electron [91] First near-relativistic a [171] STEREO observations of the 7 Nov 2013 SEP event - an event inside loop magnetic [81] Filament Eruptions Outside of Ac Outside [81] Filament Eruptions Particle Events Energetic [237] First results from HAWC on GRBs GRBs on [237] First results from HAWC multi-wa simultaneous [162] 4.5-year Dirk LENNARZ, [783] Recent follow-up observations of follow-up observations [783] Recent the MAGIC Telescopes [728] Gamma-Ray Burst ob t through of Mrk501 [485] First study of MAGIC eyesight LIDAR-corrected} Fermi overlap era and ARGO-YBJ [787] Reconcilement of the VHE [787] Reconcilement [1177] FACT - Status and Experience from Experience - Status and [1177] FACT SiPM Camera telescopes of the MAGIC [579] Performance high VHE fluxes at break-down [1172] A Novel Method for Detecting Extende Detecting for Method A Novel [1172] Moonlight Bright under Observations [676] VERITAS GRIFFIN, Sean

14:15 14:15 14:00 14:00 12:00 12:00 12:15 11:45 11:45 11:30 11:30 11:15 11:15 11:00 11:00 12:15 12:15 12:00 12:00 11:30 11:30 11:45 11:15 11:15 11:00 11:00 12:15 12:15 12:00 12:00 11:30 11:30 11:45

time [id] title presenter Parallel CR13 EX EAS - World

time [id] title presenter

Parallel SH04 - Mississippi (11:00-12:30) Parallel SH04 - Mississippi

time [id] title presenter Parallel GA12 EGAL - World Parallel GA12

PoS(ICRC2015)1236 CORTINA, Juan Juan CORTINA, Akira OKUMURA, ROTH, Markus Markus ROTH, GARCZARCZYK, Markus PETROV, Igor PETROV, HAUNGS, Andreas Matthias Ralf ULRICH, ABBASI, Rasha Laura COLLICA, Juan ARTEAGA-VELAZQUEZ, Carlos Ding CHEN, GONZALEZ, Javier ABUZAYYAD, Tareq ABUZAYYAD, ope Array HASSAN, Tarek

scope Array Surface Detector Detector Array Surface scope Takeshi OKUDA, tra-high energy cosmic ray data ray data energy cosmic tra-high BAUS, Colin r the Cherenkov Telesc r the he Cherenkov Telescope Array Teresa MONTARULI, Observatory Array: Alborz-I Array: Alborz-I Observatory Soheila ABDOLLAHI, with the attenuation length of muons length with the attenuation the proton-air cross section with the section cross the proton-air ion models from *10TeV to 1 PeV with *10TeV to 1 from ion models observed by the TALE detector using using the TALE detector by observed mospheric Cherenkov Telescope to Telescope Cherenkov mospheric lescopes for the Cherenkov Telescope Telescope Cherenkov for the lescopes d KASCADE-Grande Measurements: d KASCADE-Grande in the energy range 10^16 – 10^18 eV – 10^18 10^16 range in the energy cross section of the Telescope Array of the Telescope section cross Giant Observatory Giant Observatory DASSO, Sergio Telescope Array Large Size Telescopes Size Telescopes Array Large Telescope TESHIMA, Masahiro muon content in air showers at the Pierre Auger at the in air showers muon content d status of the LHAASO project d status of the LHAASO project HE, Huihai [121] MACHETE: A transit Imaging At [121] MACHETE: the VHE gamma ray sky survey half of Simulation Ray-tracing of a Non-sequential Development [264] ROBAST: Telescope Array in the Cherenkov Applications and its Library [318] Status of the Medium-Sized Te [318] Status of the Medium-Sized [197] Status of the Cherenkov an highlights [904] Design [465] Second large scale Monte Carlo study fo Monte Carlo [465] Second large scale for t projects small size telescope [1397] The Array [980] A universal description of temporal and lateral distributions of ground of ground and lateral distributions of temporal [980] A universal description showers air in extensive particles [670] Testing hadronic interaction models interaction models hadronic [670] Testing in KASCADE-Grande interact of hadronic [1233] Investigation the Tibet AS-core data in IceTop muons [363] Surface Peter DEMBINSKI, Hans [1095] First result of the proton-air [1095] First result of the proton-air [797] Measurement of the Observatory of accelerator and ul analysis [1162] Combined [1091] Extension of the measurement of [1091] Extension of the measurement Observatory Pierre Auger experiment. [136] Status of the first phase of the Alborz Alborz of the first phase [136] Status of the American [214] LAGO: the Latin [254] The spectrum of cosmic rays cosmic rays of spectrum [254] The Array in Yakutsk Cherenkov according to the Small an Decades of KASCADE [446] Two Some Achievements [572] Burst Shower Events Observed by the Tele by Observed Events Burst Shower [572] Spectrum Energy Rays [1185] Cosmic Cerenkov light

15:45 15:45 15:30 15:30 14:55 14:55 15:15 14:35 14:35 14:00 14:00 14:15 15:45 15:45 15:15 15:15 15:30 15:00 15:00 14:45 14:45 14:15 14:15 14:30 14:00 14:00 15:30 15:30 15:45 15:15 15:15 15:00 15:00 14:30 14:30 14:45

time [id] title presenter

Parallel GA13 FUTURE - Amazon (14:00-16:00)

time [id] title presenter

Parallel CR14 Hadr Int - Yangtze 2 (14:00-16:00) Parallel CR14

PoS(ICRC2015)1236 GABICI, Stefano MISHEV, Alexander Lev DORMAN, BARRIOS MARTÍ, Javier Javier MARTÍ, BARRIOS MICHAEL, Tino BLEVE, Carla Stefan COENDERS, Aongus O'MURCHADHA, PFENDNER, Carl Gilbert Geraldina GOLUP, Pierre-Simon MANGEARD, Payload WISSEL, Stephanie Payload WISSEL,

uon hodoscope BARBASHINA, Natalia Three Years of IceCube Data Data Three Years of IceCube Dawn WILLIAMS, to Geomagnetic Field Variations Field to Geomagnetic EVENSON, Paul rino candidate events from IceCube events from IceCube candidate rino 3-D cosmic ray modulation model model ray modulation cosmic 3-D LUO, Xi

ANITA Long-duration Balloon ANITA Long-duration

ces over the Southern Hemisphere with with Hemisphere Southern the over ces measured by the Pierre Auger Pierre Auger measured by the rigidities for the world wide neutron neutron wide world for the rigidities continues monitoring of cosmic rays of cosmic monitoring continues including cascade events with the events with cascade including X-rays? X-rays? Oleg RUCHAYSKIY, nt source searches with 2008-2014 IceCube data IceCube with 2008-2014 searches nt source bush decreases by means of m bush decreases by means cosmic-ray ground-level enhancements enhancements ground-level cosmic-ray MORAAL, Harm Forum Theater (17:00-18:30)

[1368] Decaying dark matter in [1368] Decaying Observatory Pierre Auger from the [1374] Highlights interacting remnants from supernova rays gamma of connection [1184] On the mm range in the measured ray ionization cosmic and clouds with molecular Luisa GHIA, Piera monitor network over the period of the period over monitor network of For [1199] Investigations a with Decreases [183] A study of Forbush [21] A New neutron monitor yield function computed for different altitudes: altitudes: for different computed yield function monitor [21] A New neutron analysis for a GLE Application of the vertical cutoff [1038] Variations Monitor Sensitivity Pole Neutron [1277] South [260] The time structure of [260] The time structure of the Princess Sirindhorn Simulation Carlo Monte and [428] Observations GV of 16.8 Cutoff at a Vertical Rigidity Neutron Monitor programme neutron monitor [546] The mini Helena KRUGER, [544] A Search for Astrophysical Tau Neutrinos in Neutrinos Tau [544] A Search for Astrophysical stations at from two full ARA detector limits neutrino [1293] First cosmogenic South Pole UHECRs between the [734] Correlation Array and neut and Telescope Observatory [1121] Updates on the neutrino and photon limits from the Pierre Auger Auger the Pierre limits from and photon on the neutrino [1121] Updates Observatory of neutrino poi [187] Results above 10 TeV [634] Search for point-like neutrino sour neutrino for point-like [634] Search telescopes neutrino IceCube and the ANTARES of the of the Third Flight [1217] Overview search source point [637] Neutrino telescope ANTARES neutrino

17:30 17:30 18:00 17:00 17:00 15:30 15:30 15:45 15:00 15:00 15:15 14:45 14:45 14:30 14:30 14:00 14:00 14:15 15:45 15:45 15:15 15:15 15:30 15:00 15:00 14:45 14:45 14:15 14:15 14:30 14:00 14:00

time [id] title presenter High-Light Talks - World

Poster 2 - (16:00-17:00)

time [id] title presenter

(14:00-16:00) Parallel SH05 - Mississippi

time [id] time [id] title presenter Parallel NU04 - Yangtze 1 (14:00-16:00) - Yangtze NU04 Parallel

PoS(ICRC2015)1236

Drinks Lecture Hess [1399] Victor FALCKE, Heino

19:00 19:00 20:00

time [id] time [id] title presenter Public lecture - (19:00-21:00) lecture Public

PoS(ICRC2015)1236 DE BOER, Wim GRASSO, Dario sarah RECCHIA, MARTUCCI, Matteo Enectali Enectali

02 GEBAUER, Iris 02 GEBAUER, celeration site celeration NAVA, Lara

igin of the Microwave Haze Haze of the Microwave igin Roland CROCKER, drodynamic turbulence turbulence drodynamic Alexandre MARCOWITH, ys from relative diffusion diffusion from relative ys MERTSCH, Philipp ssions of the Galaxy with spatial of the Galaxy with ssions searches with AMS- searches with

the Fermi Bubbles, formed by outflows formed the Fermi Bubbles, uxes with AMS-02 Iris GEBAUER, THE PRESENCE OF A CR-DRIVEN PRESENCE OF A CR-DRIVEN THE and Prospects Prospects and FIGUEROA-FELICIANO, the PAMELA experiment. the PAMELA experiment. KARELIN, Alexander rld Forum Theater (11:00-12:30) rld Forum Theater propagation close to the ac d Forum Theater (09:00-10:30) d Forum [323] HAWC Observation of Supernova Remnants and Pulsar Wind Nebulae Nebulae Wind Pulsar and Remnants of Supernova Observation [323] HAWC HUI, C. Michelle [379] Fermi Bubbles with HAWC with [379] Fermi Bubbles and the Or [792] Giant Shocks in the Fermi Bubbles of origin [825] Evidence for a hadronic regions from star-forming AYALA, Hugo [345] Diffuse gamma-ray and neutrino emi and neutrino gamma-ray [345] Diffuse cosmic-ray transport dependent IN RAY TRANSPORT [740] COSMIC GALACTIC WIND in magneto-hy Ray propagation [268] Cosmic [1105] Non-linear Cosmic Ray Cosmic [1105] Non-linear the era of AMS-02 in ray transport for cosmic [1124] Models rays cosmic model for Galactic [110] Escape Michael KUNZ, Simon Gwenael GIACINTI, [1102] Direction and time dependent fl [1102] Direction cosmic ray anisotropy [1110] Methods for in [569] The large-scale anisotropy ra of cosmic [219] Small-scale anisotropies [621] MAGNETOSPHERIC EFFECTS ON HIGH-ENERGY SOLAR SOLAR ON HIGH-ENERGY EFFECTS [621] MAGNETOSPHERIC WITH THE THE 2012 May 17th EVENT MEASURED DURING PARTICLES PAMELA EXPERIMENT experiment with PAMELA distributions [1129] Study on CRE arrival PANICO, Beatrice [1385] Cosmic-ray acceleration and propagation and propagation acceleration [1385] Cosmic-ray CAPRIOLI, Damiano [1383] Dark Matter Searches: Status Matter [1383] Dark

11:45 11:45 11:30 11:30 11:00 11:00 11:15 12:15 12:15 11:45 11:45 12:00 11:15 11:15 11:30 11:00 11:00 12:00 12:00 12:15 11:30 11:30 11:45 11:15 11:15 11:00 11:00 09:45 09:45 09:00 09:00

time [id] title presenter

Parallel GA14 GAL / Bubbles etc - Yangtze 1 (11:00-12:30)

time [id] title presenter

Parallel CR16 TH prop - Yangtze 2 (11:00-12:30)

time [id] title presenter

Parallel CR15 Direct/Aniso - Wo Parallel CR15

time [id] title presenter

Invited ReviewInvited - Worl Talks

Tuesday 04 August 2015 04 August Tuesday

PoS(ICRC2015)1236 VALIÑO, Inés KIDO, Eiji GRANDI, Davide PESCE-ROLLINS, Melissa Hiroshi KOJIMA, Katherine RAWLINS, FRUCK, Christian Christian FRUCK, Julie MCENERY, KOMURA, Shotaro CANNADY, Nicholas Cristina CONSOLANDI,

rnova Remnant with VERITAS VERITAS with Remnant rnova Andrew FLINDERS, gy measurement with ANITA with ANITA gy measurement Harm SCHOORLEMMER, onboard the Chinese Spacelab Spacelab the Chinese onboard KOLE, Merlin ComPair: Following the Energy in the Energy Following ComPair: s with the IceCube Observatory Observatory IceCube s with the KARG, Timo

rays after ten years of operation of after ten years of operation rays d with MAGIC and variability searches searches and variability MAGIC d with lar Modulation Effect and Short Time Effect and Short lar Modulation trum observed with the Telescope Array with the Telescope observed trum eep Sky Survey of MeV Gamma Rays Sky Survey of MeV Gamma eep CALET: Exposure Map, Response Response CALET: Exposure Map, ellar Cosmic Rays ellar Cosmic Alexei STRUMINSKY, pot cycle 24 cycle pot H.S. AHLUWALIA, [382] Ultra-high-energy cosmic ray flux and ener cosmic [382] Ultra-high-energy the Pierre Auger Observatory Observatory the Pierre Auger [847] TA Spectrum Summary of the energy spec [299] Interpretation surface detectors IVANOV, Dmitri [916] Recent Results on Cosmic Ray Physic Cosmic on Results [916] Recent from Three Composition and Ray Spectrum Cosmic on Results [795] Latest and IceCube Years of IceTop energy cosmic [380] The flux of ultra-high [952] Trajectory reconstruction in the Earth Magnetosphere using TS05 model TS05 using Magnetosphere in the Earth reconstruction [952] Trajectory data cutoff in AMS-02 of geomagnetic and evaluation gamma-ray of high-energy observations Area Telescope [1114] Fermi Large solar flares behind-the-limb emission from in the cosmic rays of galactic coefficient of the diffusion [160] An estimation the Earth. near heliosphere [697] Ultimate Spectrum of Solar/St [697] Ultimate Spectrum of suns of structure [778] Unusual Monthly Proton Flux: So [958] AMS-02 Scale Phenomena MeV Gamma-ray Astronomy MeV Gamma-ray Burst Polarimetry [775] POLAR: Gamma-Ray observatory gamma-ray [1062] GAMMA-400 with Observations [727] Gamma-Ray Results Simulated and Functions, TOPCHIEV, Nikolay [1078] Extending Fermi LAT discoveries with discoveries LAT Fermi [1078] Extending Space Telescope Resolution Gamma-Ray [386] PANGU: A High for D Experiment [991] Balloon-Borne WU, Xin during the G2 pericenter passage passage pericenter G2 the during Supe of the Geminga a Detection [726] Towards Camera Compton an Electron-Tracking using [1092] The Galactic Center region image region Center The Galactic [1092]

15:30 15:30 15:15 15:15 15:00 15:00 14:30 14:30 14:45 14:00 14:00 12:00 12:00 12:15 11:45 11:45 11:30 11:30 11:00 11:00 11:15 12:00 12:00 12:15 11:45 11:45 11:15 11:15 11:30 11:00 11:00 12:15 12:15 12:00 12:00

time [id] title presenter Parallel CR17 EAS spec - World Forum Theater (14:00-16:00)

time [id] title presenter

Parallel SH06 - Mississippi (11:00-12:30) Parallel SH06 - Mississippi

time [id] title presenter Parallel GA15 Future / IN - Amazon (11:00-12:30) Parallel GA15

PoS(ICRC2015)1236 FUSCO, Luigi Antonio FUSCO, Luigi NIEDERHAUSEN, Hans FARRAR, Glennys Glennys FARRAR, MOSKALENKO, Igor Satyendra THOUDAM, KAFEXHIU, Ervin VIANA, Aion

s of the IceCube PeV Neutrinos PeV Neutrinos s of the IceCube KADLER, Matthias ved from gamma-ray emissivities gamma-ray ved from A.W. STRONG, to 30 GeV with H.E.S.S. II to 30 GeV GAJDUS, Michael shold using H.E.S.S. II shold using ZABOROV, Dmitry IC86-string IceCube configurations configurations IceCube IC86-string composition of cosmic rays up to the of cosmic rays composition neutrinos from the Southern Sky with from the Southern neutrinos

ciated tools ciated tools Alain David MAURIN, with H.E.S.S. phase II Markus HOLLER, of the SNR RX J1713.7-3946 of the SNR RX J1713.7-3946 EGER, Peter high energy neutrinos energy neutrinos high ZIRAKASHVILI, Vladimir Bursts with the Large Volume Detector Detector Volume Large with the Bursts Francesco Carlo VIGORITO, production cross-sections for pp for cross-sections production Large Magellanic Cloud Cloud Magellanic Large Nukri KOMIN, igh energy gamma-ray emission of the of emission gamma-ray energy igh he UHECR spectrum, and of the extragalactic of the extragalactic and spectrum, he UHECR plane survey survey plane DEIL, Christoph [306] Search for an enhanced emission of emission for an enhanced [306] Search telescope the ANTARES Neutrino for Supernova [344] Search [903] High-Fluence Blazars as Possible Source Blazars as Possible [903] High-Fluence for flux characteristics neutrino astrophysical energy [1208] High using IC79 and cascades neutrino-induced [1013] Pulsations from the Vela pulsar down pulsar down the Vela from [1013] Pulsations with H.E.S.S. II [938] Sgr A* Observations thre with a 100 GeV [780] AGN observations PARSONS, Robert [596] H.E.S.S. precision measurements measurements [596] H.E.S.S. precision of the [1053] H.E.S.S. Observations Nebula Crab of the [1046] Observations [627] The H.E.S.S. Galactic Galactic [627] The H.E.S.S. of the very-h origin [1254] On the region Center Galactic [200] IIn supernovae as the sources of [200] IIn supernovae as the sources B complex of the Sagittarius observations [69] Fermi-LAT Yang RUIZHI, highest energies energies highest asso code and [293] USINE propagation of gamma-ray [146] Parametrization to PeV threshold kinematic from the range energy proton in a broad interactions energies [398] GALPROP Code for Galactic Cosmic Ray Propagation and Associated Associated and Cosmic Ray Propagation Galactic for [398] GALPROP Code Photon Emissions deri cosmic-ray spectra [545] Local interstellar and spectrum energy [754] A study of the protons below it below protons look a critical reacceleration: diffusive [281] Cosmic-ray Luke DRURY, [654] The origin of the ankle in t of the ankle The origin [654]

14:45 14:45 14:30 14:30 14:00 14:00 14:15 15:45 15:45 15:15 15:15 15:30 14:45 14:45 15:00 14:30 14:30 14:00 14:00 14:15 15:30 15:30 15:45 15:15 15:15 15:00 15:00 14:30 14:30 14:45 14:15 14:15 14:00 14:00 15:45 15:45

time [id] title presenter

Parallel NU05 - Yangtze 1 (14:00-16:00)

time [id] title presenter

Parallel GA16 H.E.S.S. - Amazon (14:00-16:00) Parallel GA16 H.E.S.S. - Amazon

time [id] title presenter Parallel CR18 TH propParallel (14:00-16:00) - Yangtze 2

PoS(ICRC2015)1236 192 192 210 210 197 144 138 170 136 136

MOHRMANN, Lars Steffen HALLMANN, Riccardo MUNINI, GIESELER, Jan SHRIVASTAVA, Pankaj Kumar MUNAKATA, Kazuoki Masayoshi KOZAI, KUDELA, Karel RÄDEL, Leif Leif RÄDEL, ROZZA, Davide ROZZA, Davide SARMIENTO-CANO, Christian SARMIENTO-CANO, Noemie GLOBUS, KARUS, Michael BERTAINA, Mario HUNT, Patrick Patrick HUNT, MACKOVJAK, Simon MACKOVJAK,

electrons in the heliosphere in the heliosphere electrons Rendani NNDANGANENI,

rays electrons and positrons over the over positrons and electrons rays cosmic rays observed with the Global with rays observed cosmic the High-Energy Cosmic Neutrino Flux Neutrino Flux Cosmic the High-Energy TIME – SERIES OF ATMOSPHERIC TIME – SERIES OF ATMOSPHERIC the Fermi Bubbles with the ANTARES the Fermi Bubbles anetary shock observed with the Global with the Global observed shock anetary astrophysical muon neutrino flux using flux using neutrino muon astrophysical the electron and positron spectra at spectra and positron the electron he UV background by EUSO-Balloon by EUSO-Balloon he UV background system laser station prototype prototype station laser system the first EUSO-Balloon flight the first EUSO-Balloon

above 100 GeV 100 GeV above

Muon Detector Network (GMDN) Network Muon Detector of the interpl features [131] Average (GMDN) Network Muon Detector [159] RELEVANCE OF LONG TERM FOR TO MODELS OBSERVATORY PARAMETERS AT A MOUNTAIN CLIMATE CHANGE [967] The solar modulation potential derived by spacecraft measurements measurements by spacecraft derived potential [967] The solar modulation above and monitors neutron below GCRs at energies modified to describe ray field in cosmic magnetic interplanetary wind and solar of [1354] Role modulation. of galactic anisotropy [117] North-south [97] The total solar modulation of low energy of low energy modulation [97] The total solar cosmic of galactic [333] Solar modulation PAMELA experiment. with the minimum solar 23rd heliosphere helium in the of galactic [528] Modulation NKOSI, Godfrey sibusiso [490] Update of a Combined Analysis of Analysis of a Combined [490] Update Detector at the IceCube from flux for a neutrino [349] Search telescope break [642] A measurement of the diffuse of the A measurement [642] multiple years of IceCube data data of IceCube multiple years

[890] Preliminary results from from results [890] Preliminary [496] Vela-X as main contributor to contributor [496] Vela-X as main [767] The JEM-EUSO global light global [767] The JEM-EUSO JEM-EUSO MAPMT and SiPM for of Calibration [661] Ground energy [1302] Night time measurement of t time measurement [1302] Night shocks at GRB internal acceleration [663] UHECR [1146] Analysis of Background Cosmic Ray Rate in the 2010-2012 Period from Period from 2010-2012 Ray Rate in the Cosmic [1146] Analysis of Background Detectors the LAGO-Chacaltaya 15:45 15:45 15:30 15:30 15:15 15:15 14:45 14:45 15:00 14:30 14:30 14:00 14:00 14:15 15:30 15:30 15:45 15:15 15:15 15:00 15:00

[id] title [id] title presenter board

Poster 3 CR - Amazon Foyer (16:00-17:00)

Poster 3 - (16:00-17:00)

time [id] title presenter

Parallel SH07 - Mississippi (14:00-16:00) Parallel SH07

PoS(ICRC2015)1236 224 224 139 139 201 201 194 194 154 154 212 211 168 225 198 137 146 147 223 189 149 208 150 151 218 140 140 142 165 203

ÁK, Blahoslav ■ MIYAKE, Shoko OHIRA, Yutaka BISWAS, Sayan PASTIR MARCOWITH, Alexandre Alexandre MARCOWITH, FUMIYOSHI, Kajino YAKOV, Istomin ADAMS, James Camille MORETTO, Jakub VICHA, GUZMAN, Alejandro Alejandro GUZMAN, AL SAMARAI, Imen DELIGNY, Olivier KOIRALA, Ramesh PANICO, Beatrice yoann GENOLINI, GIACINTI, Gwenael FRIAS, Maria RODRIGUEZ FENU, Francesco MERNIK, Thomas Alexandre MARCOWITH, RABANAL REINA, JulioRABANAL Arturo SAKAKI, Naoto FENU, Francesco TAKIZAWA, Yoshiyuki WIENCKE, Lawrence SIBATOV, Renat eters: impact on the interpretation on the eters: impact tensive air showers from near space space near from showers tensive air urements in the UV camera during during the UV camera in urements board the EUSO-Balloon (CNES) flight board the EUSO-Balloon ic strangelets and an estimation of an estimation and strangelets ic ystem for KLYPVE Ultra-High Energy ystem for KLYPVE Ultra-High YPVE/K-EUSO space-based mission for mission YPVE/K-EUSO space-based on Performance of the Tilted JEM- Performance on different levels of UV background UV background of levels different oon using airborne light sources mounted light sources airborne oon using magnetic field on the propagation of the propagation field on magnetic ionized plasmas plasmas ionized cosmic rays in the Galaxy the rays in cosmic

possible flux in solar neighborhood flux in solar neighborhood possible

[1074] Pattern recognition study for study recognition [1074] Pattern in JEM-EUSO experiment experiment in JEM-EUSO [1259] On the Combined Analysis of Muon Shower Size and Depth of Depth and of Muon Shower Size Analysis Combined [1259] On the Shower Maximum to a Helicopter to a Helicopter their EUSO- of the module detector of the photon calibration [1016] Absolute for future missions and immprovements Balloon experiment [526] A production scenario of Galact scenario [526] A production [1359] Cosmic rays: extragalactic and Galactic Galactic and extragalactic rays: [1359] Cosmic of EUSO Ball [429] The Calibration [836] K-EUSO: An improved optical s An improved [836] K-EUSO: [396] Effect of the regular galactic galactic [396] Effect of the regular galactic Supernovae in Young Efficient Cosmic-Ray Acceleration [399] Probing telescope ray space cosmic [270] Cosmic Ray propagation in molecular clouds clouds in molecular Ray propagation [270] Cosmic [925] Tests of JEM--EUSO 1st level trigger using EUSO--Balloon data data EUSO--Balloon using 1st level trigger of JEM--EUSO [925] Tests Resoluti Angular [590] The Expected [1309] The Spanish Infrared Camera on Camera Infrared [1309] The Spanish of the positron fraction fraction of the positron in at Supernovae Occurring Ray Acceleration [711] Cosmic Environments Structured 2014. 24, on August EUSO Instrument [1155] Analysis of EUSO-Balloon data with Offline with data [1155] Analysis of EUSO-Balloon param propagation on [1098] Uncertainties [1158] Constant Intensity Method in IceTop Method in IceTop Intensity [1158] Constant [570] JEM-EUSO observational capabilities for different UHE primaries. primaries. UHE for different capabilities observational [570] JEM-EUSO Molecular from Signals Expected of Microwave [1159] Intensity Showers Extensive Air in Radiation Bremsstrahlung the observation of ultra-high energy cosmic rays energy cosmic of ultra-high the observation ex to record mission [816] EUSO-Balloon rays of cosmic as accelerators [934] On galaxies [811] Magnetic field amplification by high Alfven Mach number shocks in shocks Alfven Mach number high by field amplification [811] Magnetic partially [939] Expected acceptance of the KL acceptance [939] Expected [1075] Photoelectron counting rate meas rate counting [1075] Photoelectron the EUSO-BALLOON night flight flight night the EUSO-BALLOON

PoS(ICRC2015)1236 217 217 202 202 228 228 156 156 221 221 148 148 193 153 196 155 176 204 158 182 159 220 227 160 178 178 190 232 141 216 157 215 CHEN, Ding CHEN, Xu CHEN, Jing HUANG, M.SHIBATA, KAGAYA, Mika DETTMAR, Ralf-Juergen Ralf-Juergen DETTMAR, RICCI, Marco HE, Huihai HE, Huihai D'ANGELO, Marta Marta D'ANGELO, SÁNCHEZ, Jose Luis FRIAS, Maria RODRIGUEZ Svetlana ROGOVAIA, KATSUYA, ryoichi Ramanath COWSIK, RICCI, Marco PAUL, Thomas PAUL, Thomas ZIRAKASHVILI, Vladimir DAGORET-CAMPAGNE, Sylvie Rashmi JOHNSON, MERNIK, Thomas POHL, Martin BACHOLLE, Simon PSHIRKOV, Maxim PSHIRKOV, Maxim TOMITA, Sara TOMASSETTI, Nicola SÁNCHEZ, Jose Luis FRIAS, Maria RODRIGUEZ Ding CHEN, Jing HUANG, ZHAI, L.M. SHIBATA, M. KATAYOSE, Y. Aera JUNG, Anatoly PETRUKHIN, with PRISMA-32 of high energy electrons and gamma gamma and electrons of high energy magnetic fields in halos of spiral of in halos fields magnetic preparation of a long duration flight a long duration of preparation fluctuations in the EUSO-Balloon data data the EUSO-Balloon in fluctuations MERA ONBOARD EUSO-BALLOON MERA ONBOARD EUSO-BALLOON s and the Lifetime of Cosmic Rays in Rays of Cosmic s and the Lifetime ic Microwave Background - The future Background ic Microwave c magnetic fields from the NVSS fields from the magnetic c rons measured to JEM-EUSO telescope at the to JEM-EUSO telescope y and the detection performances of the performances y and the detection r JEM-EUSO to measure Earth’s Earth’s JEM-EUSO to measure r -II, Tibet-III and MD arrays herenkov muon detector parameters and performances and performances parameters detector herenkov muon Array site

gamma-ray sources sources gamma-ray

LHAASO

li

[1235] Simulation study on the detection study on [1235] Simulation rays with the newly upgraded Tibet ASgamma experiment experiment Tibet ASgamma newly upgraded the rays with the Galaxy from the ISS. UV background [560] Mini-EUSO: a pathfinder fo [1216] Spectral Intensities of Antiproton Intensities [1216] Spectral [1358] Measurement of the cosmic-ray nuclear composition using using composition of the cosmic-ray nuclear [1358] Measurement Chacaltaya at Mount detectors cherenkov [1212] EAS spectrum in thermal neut in efficiency [632] EUSO-Balloon trigger [188] Determination of source spectra of ultrahigh energy cosmic rays rays cosmic energy ultrahigh of spectra of source [188] Determination [971] Search for significant background background for significant [971] Search MODEL: WRF TOP HEIGHT ESTIMATION FROM [979] CLOUD CA APPLICATION TO THE INFRARED [856] Constraints on acceleration of ultra high-energy cosmic rays in rays cosmic high-energy of ultra on acceleration [856] Constraints Fermi [854] EUSO-TA, a ground precursor precursor [854] EUSO-TA, a ground Telescope medium intergalactic in the generated instability ray streaming [976] Cosmic (CNES) [253] Study of Water C [577] The Angular Resolution of the JEM-EUSO Mission: an updated view an updated Mission: of the JEM-EUSO Resolution [577] The Angular remnants in supernova of electrons [60] Reacceleration for [628] Adventures in Inflation And Cosm [628] Adventures [625] Determination of the sensitivit [625] Determination instrument of the EUSO-BALLOON pixels UV camera of the cosmos. [515] Cosmic ray PeVatrons: where are they? they? are where ray PeVatrons: [515] Cosmic Tibet hybrid of the new performance reconstruction [1225] Shower of YAC consisting experiment [393] A new design for simulation and reconstruction software for the JEM- for the software reconstruction and for simulation [393] A new design EUSO mission [1008] Performance of the Spanish Infrared Camera onboard onboard Camera of the Spanish Infrared [1008] Performance (CNES) flight on August 24, 2014. the EUSO-BALLOON [440] Weibel instability in anisotropically inhomogeneous plasmas plasmas inhomogeneous instability in anisotropically [440] Weibel rays in cosmic spectra and hadroninc of leptonic description [1245] Consistent [1133] Constraints on the extragalacti [1133] Constraints [1237] A fresh view on cosmic rays and rays fresh view on cosmic [1237] A Faraday rotation measures measures rotation Faraday

PoS(ICRC2015)1236 162 162 161 161 200 200 199 166 214 213 167 143 169 187 183 185 185 163 181 226 164 209 195 222 186 OSTERIA, Giuseppe OSTERIA, Giuseppe SCOTTI, Valentina FENU, Francesco FENU, Francesco BERTAINA, Mario Jing HUANG, ZHAI, L.M. Ding CHEN, SHIBATA, M. KATAYOSE, Y. Sarah MUELLER, Rossella CARUSO, CATALANO, camille FRIAS, Maria RODRIGUEZ Antonio CODINO, SABOUHI, Mohammad DELIGNY, Olivier M. Rogerio DE ALMEIDA, PETRUKHIN, Anatoly Anatoly PETRUKHIN, SÁNCHEZ, Jose Luis FRIAS, Maria RODRIGUEZ KUMAR, Rahul Jing HUANG, ZHANG, Ying ESER, Johannes ASLAM, OPM Emanuele GRIMALDO, SUN, Zhandong ZHANG, Yong ZHU, Fengrong ZHANG, Shoushan CAO, Zhen DALKAROV, OLEG of muon detector thresholds on on thresholds of muon detector easurement of Tracks from a Laser in a Laser of Tracks from easurement Tsallis statistics in the context of context in the statistics Tsallis using measures of the depth of of the depth using measures acceleration in colliding wind binaries binaries wind colliding in acceleration lei in the cosmic radiation and the and radiation lei in the cosmic ying under the EUSO-Balloon (CNES) EUSO-Balloon the ying under EUSO Balloon: in flight performance. performance. in flight EUSO Balloon: near the Heliospheric Current Sheet Current the Heliospheric near ng the Transition between Galactic Galactic between the Transition ng on and helium spectra and a sharp knee sharp spectra and a and helium on states of helium atoms in the states of helium mposition above the knee: new new knee: the above mposition at the injection of the galactic of the galactic injection at the RELATIVISTIC, WEIBEL-UNSTABLE WEIBEL-UNSTABLE RELATIVISTIC, ng the light-component spectrum of spectrum light-component ng the ogen Laser for LHAASO Experiment Laser for ogen a cold neutron star neutron a cold

[639] The Simulation of cosmic rays in EUSO--Balloon: performances of of performances in EUSO--Balloon: rays Simulation of cosmic [639] The reconstruction and energy the direction modulation of the nuclear species species of the nuclear modulation [201] Are inclined air showers from cosmic rays the most suitable to most suitable the from cosmic rays showers air [201] Are inclined radio detection? [328] The dominance of secondary nuc of secondary [328] The dominance [1292] Implementation in OFFline of the reconstruction code of the code reconstruction of the OFFline in [1292] Implementation Mission. Space of the JEM-EUSO Camera Infrared [717] Performance of the EUSO-BALLOON optics optics of the EUSO-BALLOON [717] Performance quantum [325] On the gravitational of gravitational field [1198] The EUSO@TurLab project' project' [1198] The EUSO@TurLab [1169] A CORSIKA study on the influence [1169] A CORSIKA [889] The Weather Research and Forecasting (WRF) model contribution to model contribution Forecasting (WRF) and Research [889] The Weather experiment the EUSO-Balloon estimation during conditions the atmospheric [1201] YAC sensitivity for measuri energies at the ``knee" rays cosmic primary energies highest rays at of primary cosmic the separability [885] Cloud Monitoring using Nitr [885] Cloud Monitoring and Extragalactic Cosmic Rays? Rays? Cosmic and Extragalactic of proton simulations Carlo [606] Monte index of of the entropic [744] Constraints high energies at ultra collisions hadronic showers maximum of air [753] An Additional Component Blurri [753] An Additional Component [1104] Cosmic ray Intensity Variations ray Intensity [1104] Cosmic [860] EUSO-Balloon: Observation and M and [860] EUSO-Balloon: Observation PLASMA rigidity- a between the relation to explain primary model [1189] On the of prot hardening spectral dependent of the a Helicopter - 23 20 of Solar Cycles Minimum during [1024] Cloud Optical Depth obtained from the Infrared Camera data and the data Camera the Infrared obtained from Depth Optical [1024] Cloud fl helicopter a mounted on UV Flashers IN A HEATING [155] ELECTRON [1025] The Data Processor System of System of [1025] The Data Processor [226] PCR energy spectrum and co spectrum energy [226] PCR approach to experimental data interpretation interpretation data to experimental approach

PoS(ICRC2015)1236 180 180 174 174 279 205 205 188 175 230 233 231 271 255 273 257 274 275 229 229 184 179 171 172 177 191 207 173 152 219 CODINO, Antonio Antonio CODINO, BACHOLLE, Simon DE WASSEIGE, Gwenhaël TOMASSETTI, Nicola TOMASSETTI, Nicola GRACIA, Rodrigo DE WITH, Meike KOPPER, Sandro NIETO CASTANO, Daniel PERRINA, Chiara PFENDNER, Carl Gilbert EICHLER, David David EICHLER, BROSE, Robert SHINOZAKI, Kenji HUSSEIN, Mohammad ILOLOV, Mamadsho Mamadsho ILOLOV, Mohammad SABOUHI, Antonio CODINO, HAUNGS, Andreas FENU, Francesco LAMANNA, Giovanni NIEMIEC, Jacek Artem BOHDAN, FRIAS, Maria RODRIGUEZ Andrii NERONOV, ADAMS, James PONCE, Epifanio

ple of Constant Spectral Indices Spectral Indices ple of Constant ENERGETIC PARTICLES IN NOISY ENERGETIC PARTICLES IN NOISY from the ARA Testbed station at station Testbed from the ARA Instabilities in the Precursors of Precursors the in Instabilities ability of knots of Centaurus A jet of knots of Centaurus ability are neutrino events in the IceCube in the IceCube events are neutrino an Exotic Physics as Tracks Double sources above the horizon with the horizon above the sources om unresolved point sources with with sources point om unresolved ns and model uncertainties in model uncertainties and ns registered with a ground pinhole pinhole with a ground registered rmance of JEM-EUSO mission with mission of JEM-EUSO rmance USO Prototype Instrument Instrument USO Prototype adiation above the ankle energy energy ankle the adiation above Science of JEM-EUSO JEM-EUSO Science of

bt [144] The new horizon disclosed by the measurements of the chemical of the chemical measurements by the disclosed horizon new [144] The of the cosmic r composition ANTARES Neutrino Telescope Telescope ANTARES Neutrino South Pole [1126] First cosmogenic neutrino limits limits neutrino [1126] First cosmogenic [986] Search for point-like neutrino for point-like [986] Search [1343] Scrutinizing the gamma-ray sky for potential dark matter subhalos subhalos matter sky for potential dark the gamma-ray [1343] Scrutinizing the ANTARES neutrino telescope neutrino telescope the ANTARES fl solar [194] Evaluation of expected Induced [1122] Search for Neutrino Signature in IceCube [587] Searching for neutrinos from dark matter annihilations in (dwarf) in matter annihilations from dark for neutrinos [587] Searching with IceCube clusters and galaxies [592] Search for signal emission fr emission for signal [592] Search propagation of Galactic cosmic rays cosmic Galactic of propagation cosmic on high-energy data recent for diffusion model [1244] Inhomogeneus [1246] Fragmentation cross-sectio [1246] Fragmentation [68] PERPENDICULAR DIFFUSION OF DIFFUSION [68] PERPENDICULAR It remnants supernova in turbulence of magnetic [359] Transport t perfo [682] Evaluation of scientific [1289] Transient luminous events luminous [1289] Transient for the EUSO Supply Power High-Voltage [1364] A Cockcroft-Walton option Dragon Space-X TURBULENCE MAGNETOHYDRODYNAMIC REDUCED [432] Calibration of the TA-E [432] Calibration [1286] Study of short-time X-ray vari X-ray [1286] Study of short-time [1283] The Atmospheric [484] Spatial Evolution of Nonresonant [484] Spatial Evolution Galaxy? in our Originate Rays Cosmic Energy Ultrahigh [1005] Do in Cosmic Ray Physics in Cosmic performances reconstruction $X_{max}$ and energy [611] The JEM-EUSO clusters star of young massive description [76] Phenomenological Shocks Remnant Young Supernova [897] Towards a SiPM based fluorescence camera for JEM-EUSO JEM-EUSO for camera based fluorescence a SiPM [897] Towards [143] The Ankle, the Knee and the Princi the Knee [143] The Ankle, [619] Equations of anomalous diffusion of cosmic rays of cosmic rays diffusion of anomalous [619] Equations on based direction propagation air shower method to determine [205] A new radio signal patterns

[id] title [id] title presenter board

Poster 3 DM and NU - Amazon Foyer Terrace (16:00-17:00)

PoS(ICRC2015)1236 289 289 280 280 282 253 253 272 272 262 258 266 263 281 276 283 284 265 286 287 261 292 290 277 277 260 264 278 254 285 251 MATHIEU, Aurore Aurore MATHIEU, JONGEN, Martijn JONGEN, STRANSKY, Dominik SZABELSKI, Jacek TÖNNIS, Christoph Mathis BÖRNER, Javier BARRIOS MARTÍ, VON DOETINCHEM, Philip Veronique VAN ELEWYCK, KUNNEN, Jan Steffen HALLMANN, BAUM, Volker HOFESTÄDT, Jannik Jannik HOFESTÄDT, TOENNIS, Christoph WOOD, Matthew Brenda DINGUS, Jan LUENEMANN, Javier BARRIOS MARTÍ, ISHIHARA, Aya PEPPER, james PEPPER, Daniel NIETO CASTANO, Moritz HÜTTEN, KOPPER, Claudio NEILSON, Naoko KURAHASHI Koichi ICHIMURA, PAVALAS, Gabriela Emilia Benjamin ROTTER, neutrinos in 6 years of IceCube data data 6 years of IceCube in neutrinos rinos in Four Years of IceCube Data Data Years of IceCube in Four rinos s detected by the ANTARES telescope telescope the ANTARES by s detected low-energy cosmic ray antideuterons r: Detection prospects with the with prospects r: Detection diffuse flux of cosmic neutrinos neutrinos diffuse flux of cosmic rino flux with ANTARES using track flux with ANTARES using rino towards the centre of the earth with of the earth centre the towards Decay Searches with the High with the High Searches Decay os among the Fermi-LAT sources the Fermi-LAT os among waves and high energy neutrinos with neutrinos high energy and waves th different spectral indexes around indexes spectral th different he Atmospheric Neutrino Spectrum Neutrino Spectrum he Atmospheric i-neutron events observed underground. underground. i-neutron events observed the centre of the Earth with the the centre he detection of supernovae with the with the of supernovae he detection y to neutrino point sources sources y to neutrino point no Mass Hierarchy of KM3NeT/ORCA KM3NeT/ORCA of Hierarchy no Mass

[969] Follow-up of high energy neutrino of high energy [969] Follow-up IceCube observatory IceCube observatory [1063] Recent improvements in t improvements [1063] Recent [125] A search for Dark Matter in Matter [125] A search for Dark neut cosmic for a diffuse [483] Search and antiprotons and antiprotons detectors the VIRGO-LIGO and ANTARES high energy [463] A search for extremely detector. IceCube neutrino events and cascade [1219] Joint search for gravitational search for gravitational [1219] Joint [759] GAPS - Dark matter search with [759] GAPS - Dark matter [1090] Unfolding measurement of t measurement [1090] Unfolding wi sources point-like [636] Limits on [1211] Indirect search for dark matter matter for dark search [1211] Indirect neutrino telescope the ANTARES IceCube-79/86 using telescope neutrino ANTARES the center using the Galactic [1279] KM3NeT/ARCA sensitivit [1279] KM3NeT/ARCA to a sensitivity [1175] KM3NeT/ARCA [361] Pull-validation: A resampling method to improve the usage of low- the usage to improve A resampling method [361] Pull-validation: statistics datasets [1296] Dark Matter Annihilation and Matter Annihilation [1296] Dark [935] Sensitivity to the Neutri [170] Limits to dark matter properties from a combined analysis of MAGIC of analysis from a combined [170] Limits to dark matter properties results and Fermi-LAT Observatory (HAWC) Cherenkov Altitude Water [366] Constraining Secluded Dark Matter models with the ANTARES with the ANTARES models Dark Matter Secluded [366] Constraining telescope neutrino [749] Studies of intrinsic resolution of low energy electron and muon muon and electron of low energy resolution intrinsic of [749] Studies telescopes with neutrino events neutrino [819] Antiquark nuggets as dark matte nuggets [819] Antiquark of mult simulations [1365] Geant4 [951] XMASS 1.5, the next [951] XMASS 1.5, XMASS experiment step of the telescope neutrino with the ANTARES monopoles magnetic [1077] Search for ANITA3 experiment [730] Observation of Astrophysical Neut of Astrophysical [730] Observation [755] Search for Galactic dark matter substructures with Imaging Air with Imaging substructures matter dark for Galactic [755] Search Cherenkov Telescopes [690] Hunting for dark matter subhal for dark matter [690] Hunting [255] Search for Gravitino Dark Matter Decay with IceCube IceCube with Decay Dark Matter for Gravitino [255] Search with VERITAS

PoS(ICRC2015)1236 63 63 252 252 70 70 79 51 78 97 53 59 55 64 98 81 80 112 52 73 87 288 288 259 291 256 75 MACGIBBON, JANE JANE MACGIBBON, ZITZER, Benjamin Benjamin ZITZER, JUNG-RICHARDT, Ira Ira JUNG-RICHARDT, DEIL, Christoph ROVERO, Adrian Henrike FLEISCHHACK, Pierre COLIN, ZANIN, Roberta DELBART, Alain YOSHIKOSHI, Takanori KHELIFI, Bruno KENJI, Yoshida FENG, Zhaoyang KANG, Donghwa HAUNGS, Andreas PSHIRKOV, Maxim PRETZ, John Gerd PUEHLHOFER, DICK, Juergen BOTTACINI, Eugenio Elena ORLANDO, TRICHARD, Cyril Christopher BOCHENEK, ALTMANN, David ALTMANN, Matthieu KIEFFER, PINAT, Elisa WIEBE, Klaus BRUN, Francois the focus system the focus system

Stages of Evaporating of Evaporating Stages rmance thanks to r with the IceCube neutrino observatory observatory neutrino r with the IceCube of Cherenkov Telescope Array mirrors Array mirrors Telescope of Cherenkov -ray Pulsars Above the Break Energy Above the Break Energy -ray Pulsars emission with the next generation next generation with the emission background rejection by means of a by means rejection background otropic Diffuse Gamma-Ray Emission Emission Gamma-Ray Diffuse otropic from extended sources with from extended sources the om Dwarf Galaxies using VERITAS VERITAS using Galaxies om Dwarf Parametrisation (GRASP) gh-energy-gamma-ray image with gh-energy-gamma-ray ppi Foyer (16:00-17:00) ppi Foyer acteristics of the Final acteristics Black Holes

[1064] A Search for Dark Matter fr Matter Dark Search for [1064] A [978] HAP-Fr, a pipeline of data analysis for the HESS-II experiment experiment for the HESS-II data analysis a pipeline of [978] HAP-Fr, of Gamma [770] On the Spectral Shape [1300] A 3-Meter Atmospheric Cherenkov Telescope as a Test Bench for as a Test Telescope Cherenkov Atmospheric [1300] A 3-Meter Projects Astrophysics Gamma-Ray Very High Energy [957] HARPO, TPC as a gamma telescope and polarimeter: First and polarimeter: telescope TPC as a gamma [957] HARPO, 1.7 and 74 MeV between photon beam in a polarised measurement [1032] A Monte Carlo template-based analysis for very high definition high definition for very analysis Carlo template-based [1032] A Monte the VERITAS to applied as telescopes Cherenkov imaging atmospheric the MAGIC Telescopes with Region in the W44 Ray Diffusion [1167] Cosmic [1088] Enhanced HESS-II low energies perfo HESS-II low energies [1088] Enhanced [701] Detecting extended gamma-ray extended [701] Detecting the Richardson-Lucy algorithm algorithm the Richardson-Lucy Gamma- Array Telescope to the Cherenkov Access [665] Observer Ray Observatory telescopes Cherenkov [1263] The X-Ray Counterpart of the Gamma-Ray Sky of the Gamma-Ray [1263] The X-Ray Counterpart hi of very [763] Deconvolution [631] Improving H.E.S.S. cosmic-ray H.E.S.S. cosmic-ray [631] Improving [1324] Recent developments for testing developments [1324] Recent Primordial the Is Measuring for [867] Prospects 1 TeV in HAWC above in Tuebingen and actuators new Gamma-Ray Air Shower [1141] Gamma-ray halo around the M31 galaxy as seen by the Fermi LAT by the Fermi seen galaxy as halo around the M31 [1141] Gamma-ray Char [708] Observational [881] Limits on the isotropic diffuse gamma-rays at ultra high energies energies high at ultra diffuse gamma-rays the isotropic [881] Limits on KASCADE measured with [1087] Symmetric variability of gamma-ray emitting blazars blazars of gamma-ray emitting [1087] Symmetric variability IceCube detector IceCube detector [1002] All-flavor searches for dark matte dark for [1002] All-flavor searches [924] Search for neutrino emission emission for neutrino [924] Search [1361] Search for gamma-ray line signatures with H.E.S.S. H.E.S.S. with line signatures for gamma-ray [1361] Search [334] Medium-energy (few TeV - 100 TeV) neutrino point source searches in in searches source point neutrino - 100 TeV) TeV (few [334] Medium-energy sky with IceCube the Southern

[id] title [id] title presenter board Poster 3 GA - Mississi Poster 3 GA -

PoS(ICRC2015)1236 83 83 104 71 71 114 114 74 74 93 93 120 120 56 57 58 54 103 101 61 86 102 65 99 113 91 72 72 94 85 69 111 108 89

■ PATRICELLI, Barbara Barbara PATRICELLI, SALESA GREUS, Francisco MACGIBBON, JANE JANE MACGIBBON, KHELIFI, Bruno CAPISTRÁN, Tomás CAPISTRÁN, AGUILAR, Ibrahim TORRES Daniel OSTROWSKI, Micha TRICHARD, Cyril ARCHER, Avery MOISEEV, Alexander BUß, Jens Ralf WISCHNEWSKI, DYRDA, Michal O'FAOLAIN DE BHROITHE, Anna ZIEGLER, Alexander ZIEGLER, Alexander BIRD, Ralph BIRD, Ralph PARSONS, Robert Axel DONATH, DEIL, Christoph YASHIN, Igor LAUER, Robert OYA, Igor OYA, Igor marcos LÓPEZ MOYA, Lukas NELLEN, Axel DONATH, DEIL, Christoph WEINSTEIN, Amanda MASUDA, Shu DEIL, Christoph paradigm in the context of IACT data the context of IACT in paradigm rvatory to observe violations of violations rvatory to observe gravitational wave transient events wave transient gravitational in the broadband gamma-ray emission emission gamma-ray in the broadband ies: Compton-Pair Production Production Compton-Pair ies: em for the SST-1M telescope of the telescope for the SST-1M em plier tube readout system for the the system for tube readout plier the unidentified sources of the sources unidentified the the HAWC Gamma-Ray Observatory Observatory the HAWC Gamma-Ray th open source science tools source science th open the Cherenkov Telescope Array the Cherenkov Telescope Primordial Black Hole Bursts Primordial Black Hole Bursts gamma-ray catalog catalog gamma-ray

[692] New method for Gamma/Hadron separation in HAWC using using in HAWC separation method for Gamma/Hadron [692] New neural networks [674] Developments of a new mirror technology proposed for the proposed technology mirror of a new [674] Developments CherenkovArray Telescope 10 years of VHE Crab in flares short-term for [688] The search Telescope 10m Whipple with the observations Nebula [773] Development of an optical syst of an optical [773] Development Space Telescope (ComPair) for MeV Gamma-ray Astronomy Astronomy for MeV Gamma-ray (ComPair) Space Telescope Rabbit - Experience with White Synchronization [1338] Time from Tunka-HiSCORE observatory Array Telescope Cherenkov [1135] FACT-Tools: Streamed Real-Time Data Analysis Analysis Data Real-Time Streamed [1135] FACT-Tools: [774] Search for Pulsed Emission in Archival VERITAS Data in Archival VERITAS Emission for Pulsed [774] Search discover LAT [1210] Extending Fermi [646] H.E.S.S. data analysis wi [646] H.E.S.S. data analysis among identification [1035] Blazars [739] The Calibration System of System [739] The Calibration performances IACTs to enhance optimization [931] Xeff analysis method 3FGL [1341] The Multi-Mission Maximum Likelihood framework framework Maximum Likelihood [1341] The Multi-Mission [789] High-energy follow-up studies of studies follow-up [789] High-energy Project Hardware of TAIGA-IACT and Camera [652] Imaging [710] Sensitivity of HAWC to poster survey plane Galactic [666] The H.E.S.S. first Large-Sized Telescope of Telescope first Large-Sized VERITAS with Shadow Ray Moon Cosmic the [1070] Observing Program II GRB Observation [1071] The H.E.S.S. [1073] Raster Scanning the Crab Nebula to Produce an Extended VHE to Produce an Nebula Crab the Scanning [1073] Raster Source Calibration [862] Development of the photomulti [862] Development [1058] Studies towards an understanding of global array pointing for array pointing for of global understanding an towards [1058] Studies Array Telescope the Cherenkov data novel self-assembling a [874] Testing Lorentz Invariance Invariance Lorentz astronomy for gamma-ray Python package An open-source [695] Gammapy: [1056] The potential of the HAWC Obse [1056] The potential [719] Feasibility of VHE gammaarray of by an [719] Feasibility ray detection the using Telescopes Cherenkov Imaging Atmospheric [973] Evidence for a spectral turnover for a spectral [973] Evidence from SNR Puppis A revealed by H.E.S.S. observations observations by H.E.S.S. Puppis A revealed from SNR

PoS(ICRC2015)1236 121 121 90 90 118 118 105 76 107 77 110 106 119 62 67 109 100 92 117 117 66 60 84 116 95 68 82 88 115 115 NIETO CASTANO, Daniel PARK, nahee PARK, nahee OYA, Igor Leonid KUZMICHEV, ZHANG, Shoushan PARSONS, Robert Michael ZACHARIAS, T.Brian HUMENSKY, Hiroki ROKUJO, ALVAREZ, César SANTANDER, Marcos Alessio PORCELLI, KIEDA, David Daniel GOTTSCHALL, TESHIMA, Masahiro PUEHLHOFER, Gerd PUEHLHOFER, Heike PROKOPH, Jill CHEVALIER, BALLET, Jean Alessio PORCELLI, Akira OKUMURA, Joshua WOOD, KANG, Donghwa Lea JOUVIN, OTTE, Nepomuk OTTE, Nepomuk for astrophysics astrophysics for performance readout performance for the medium-sized telescopes of telescopes for the medium-sized Emission from Pulsars Using the from Emission observations of the blazar VER the blazar VER of observations ectrum TeV gamma-ray source in pressure vessel for GRAINE balloon- for GRAINE vessel pressure nalysis with the ON-OFF likelihood statistic statistic ON-OFF likelihood with the nalysis lescope of the Cherenkov Telescope Telescope of the Cherenkov lescope Telescope Array: development of the ght Concentrators for the Large- for the ght Concentrators point sources with KASCADE HAWC to Gamma-Ray Bursts Bursts HAWC to Gamma-Ray alignment system system alignment

[616] Performance of the VERITAS experiment VERITAS experiment of the [616] Performance High Altitude Water Cherenkov (HAWC) Observatory Observatory (HAWC) Cherenkov Water High Altitude [1369] Searching for Very High Energy [1369] Searching for Very [1003] Development of a balloon-style of a balloon-style [1003] Development [684] Construction of a medium-sized Schwarzschild-Couder telescope telescope Schwarzschild-Couder of a medium-sized [684] Construction for the Cherenkov a candidate as optical in 2015 experiment borne [1101] A Medium Sized Schwarzschild-Couder Cherenkov Telescope Telescope Cherenkov Sized Schwarzschild-Couder [1101] A Medium Array Telescope Cherenkov for the Proposed Design [928] H.E.S.S. II Data Analysis with ImPACT with ImPACT [928] H.E.S.S. II Data Analysis source of VHE emission? jet as the [614] AP Librae: The extended [941] A method to filter out high rate noises in air shower reconstruction for reconstruction in air shower [941] A method to filter out high rate noises the LHAASO-WCDA project the Galactic plane plane the Galactic a of spectral [1183] Statistical biases prototype array –HiSCORE system of Tunka [1153] DAQ [1057] Development of Slow Control Boards for the Large Size Telescopes of Size Telescopes Large for the of Slow Control Boards [1057] Development Array Telescope the Cherenkov gamma-ray for [788] Search [963] HESS J1641-463, a very hard sp [963] HESS J1641-463, a very hard [962] The Mirror Alignment and Control System for CT5 of the System for CT5 and Control [962] The Mirror Alignment H.E.S.S. experiment Array observatory Array observatory with X-ray, in conjunction of LS I 61 +303 VERITAS monitoring [844] Long-term campaigns and GeV observation [672] All-sky sensitivity of [672] All-sky sensitivity of the SST-1M te [900] Performance [265] Prototyping of Hexagonal Li of Hexagonal [265] Prototyping for Telescope Schwarzschild-Couder a Medium-Sized of [673] Construction of the Cherenkov-Camera Array: Implementation Telescope the Cherenkov System Data Acquisition J0521+211 from radio to gamma-ray energies energies to gamma-ray from radio J0521+211 Telescopes for ``Small-Size system the control for design [1179] Software Array Telescope of the Cherenkov with single-mirror'' Array Telescope of the Cherenkov Sized Telescopes [933] Long term variability of the blazar PKS 2155-304 of the blazar PKS [933] Long term variability Catalog LAT Source the Fermi [1050] Improving [1134] Time-resolved multiwavelength multiwavelength [1134] Time-resolved [1319] FlashCam: a fully-digital camera a fully-digital [1319] FlashCam: [1275] FIPSER a novel low cost and high a novel low [1275] FIPSER Array Telescope the Cherenkov

PoS(ICRC2015)1236 33 33 44 44 35 39 39 14 14 37 37 19 19 32 23 12 13 31 8 36 20 25 18 18 28 6 26 43 1 22 22 27 27 KRAINEV, Mikhail ALANIA, Michael ALANIA, Michael Helena KRUGER, AHLUWALIA, H.S, AHLUWALIA, MODZELEWSKA, Renata MODZELEWSKA, STRAUSS, Du Toit STRAUSS, Du Toit ASLAM, OPM DASSO, Sergio GIL, Agnieszka IHONGO, GRACE NNDANGANENI, Rendani KOBYLINSKI, Zbigniew KRAINEV, Mikhail Kumar Mahendra RICHHARIA, SILUSZYK, Marek BALABIN, Yury GIL, Agnieszka GIL, Agnieszka Stefan FERREIRA, Anderson FAUTH, Eugene THOMAS, Simon MAGHRABI, Abdullrahman KUMAR FERREIRA, Stefan FERREIRA, ys RICHHARIA, MAHENDRA MAHENDRA RICHHARIA, ys

ray intensity on quiet da ray lation of cosmic rays of cosmic lation Nicholas ENGELBRECHT, al oscillations in the GCR intensity intensity in the GCR al oscillations Detector at Riydah, Saudi Arabia Arabia at Riydah, Saudi Detector Near the Heliospheric Current Sheet Current the Heliospheric Near maximum phase and the inversion of the inversion and maximum phase c Force Field Model For Galactic Galactic For c Force Field Model and Geo-effectiveness of ICMEs of Geo-effectiveness and s in the inner heliosphere during the during s in the inner heliosphere effects of the wavy current sheet on effects of the wavy eld reversal on tri-diurnal anisotropy anisotropy tri-diurnal reversal on eld cosmic rays in 24th solar cycle cycle in 24th solar rays cosmic the Muonca muon telescopes on 13 on 13 telescopes muon the Muonca of galactic cosmic ray intensity at ray intensity cosmic of galactic eric sunspot numbers and cosmic cosmic and numbers sunspot eric of Anisotropy Solar Dimensional variation of the galactic cosmic rays rays cosmic of the galactic variation the cosmic-ray modulation parameters parameters modulation the cosmic-ray the modulation of galactic electrons in electrons of galactic modulation the al study of the long period period of the long study al Event of October- November 2003 2003 of October- November Event Cosmic Ray: 1965-2014. Ray: 1965-2014. Cosmic

rays in the heliosphere in the heliosphere rays

unusual solar minimum period

modulation

the global heliosphere the global heliosphere [1357] Anomalous annual variation of annual [1357] Anomalous drifts on [99] The effects of particle [439] On the mechanisms of the quasi-bienni [439] On the mechanisms ray Galactic Anisotropi and [562] A Time-dependent Ray Flux Cosmic [776] North-south excess of hemisph excess [776] North-south Variation of the Three [1231] 27-day [586] Spectral index of the recurrent index [586] Spectral [408] Long-term scaler and histogram analysis analysis histogram and scaler [408] Long-term 2011 - 2014 2011 - 2014 [9] Study of Decrease the Forbush Muon Cutoff Rigidity with High observed 24. No. Cycle the Solar during [1195] Galactic Cosmic Ray Modulation Ray Cosmic [1195] Galactic [1111] Study of the GCR-effectiveness [1059] FEATURES OF THE INTERPLANETARY MAGNETIC FIELD FIELD MAGNETIC INTERPLANETARY [1059] FEATURES OF THE ACTIVITY IN DIFFERENT EPOCHS OF SOLAR TURBULENCES [23] Effect of solar Poloidal magnetic fi [23] Effect of Poloidal solar [437] GCR intensity during the sunspot the sunspot [437] GCR intensity during field magnetic the heliospheric of cosmic harmonics in third variation [22] 11 Year of cosmic ray intensity on quiet days. [114] Time-dependent modeling of the solar modu solar of the modeling [114] Time-dependent [551] Results of the recalculation of of the recalculation [551] Results decreases Forbush to response field level electric [1347] Study of ground [387] Forbush decreases detected by by detected decreases [387] Forbush cosmic proton of galactic [157] The modulation recent rays cosmic of galactic modulation [158] Time-dependent 2014 22 December and September [1301] Experimental and Theoretic [1301] Experimental [593] A new approach to modeling the modeling to [593] A new approach [1322] Exceptionally strong variation variation strong [1322] Exceptionally solar rotation period after the maximum of solar cycle 24 24 cycle of solar after the maximum period rotation solar

[id] title [id] title presenter board

Poster 3 SH - Theater Foyer (16:00-17:00) Foyer 3 SH - Theater Poster

PoS(ICRC2015)1236 47 47 24 24 30 30 48 48 16 16 40 10 11 7 9 45 15 38 17 41 41 42 29 5 4 3 2 34 GAGGERO, Daniele GAGGERO, Daniele POLUIANOV, Stepan POLUIANOV, NNDANGANENI, Rendani Rendani NNDANGANENI, GOLGE, Serkan GOLGE, Serkan ASVESTARI, Eleanna ASVESTARI, GNESI, Ivan Alisson DAL LAGO, ALANIA, Michael Renata MODZELEWSKA, SILUSZYK, Marek SEREDYN, Tomasz YGBUHAY, Roger MUSALEM, Omar HEBER, Bernd PETUKHOV, Ivan David RUFFOLO, ALANIA, Michael DORMAN, Lev Lev DORMAN, Johannes MARQUARDT, Hiroshi KOJIMA, PRAVATA MOHANTY, ARUNBABU ARUNBABU KUMAR DEN, Mitsue

ospects for KM3NeT KM3NeT for ospects JAMES, Clancy physics, gamma-ray data analysis and and data analysis gamma-ray physics, rplanetary magnetic fields. fields. magnetic rplanetary KOLLAMPARAMBIL PAUL, opy with GRAPES-3 experiment opy with GRAPES-3 experiment PRAVATA MOHANTY, (REProduce Plasma Universe) code Universe) Plasma (REProduce y variations of galactic cosmic rays cosmic galactic y variations of rved using GRAPES-3 rved using PAUL, KOLLAMPARAMBIL the distant past: Data from lunar rocks rocks lunar past: Data from the distant n of Jovian electrons in the inner in the inner electrons n of Jovian of Forbush decreases by the Extreme decreases of Forbush between the cosmic ray anisotropy ray anisotropy the cosmic between on environment model: Badhwar-O'Neill on environment model: Badhwar-O'Neill PERPENDICULAR TRANSPORT PERPENDICULAR of the Forbush decrease decrease of the Forbush Forum Theater (17:00-18:30) reconstructed cosmic ray modulation since 1616 1616 cosmic ray since modulation reconstructed

[703] Highlights from ANTARES, and pr from ANTARES, [703] Highlights [228] Connections between cosmic-ray between [228] Connections Dark Matter detection )

2014 [98] Modelling of the solar modulatio of the solar [98] Modelling 17:30 17:30 17:00 17:00 [1295] Turbulence-based model [1295] Turbulence-based [648] RANDOM BALLISTIC INTERPRETATION OF THE NONLINEAR NONLINEAR OF THE INTERPRETATION BALLISTIC [648] RANDOM OF THEORY CENTER GUIDING [1249] THE ROLE OF DRIFT ON DIURNAL ANISOTROPY OF GALACTIC OF GALACTIC ANISOTROPY [1249] THE ROLE OF DRIFT ON DIURNAL CYCLE MAGNETIC OF SOLAR IN DIFFERENT PERIODS RAYS COSMIC [475] Three-dimensional MHD simulation of the solar wind from the solar the wind from of the solar simulation MHD [475] Three-dimensional surface to 400 solarREPPU radius using [643] Results from the observations from the observations [643] Results Energy Events experiment analysis coherence [1362] Spectral medium the interplanetary and [479] Forbush-decrease in a Magnetic Cloud Cloud a Magnetic in [479] Forbush-decrease [36] Measurements of solar diurnal ansiotr [1044] A simple model of Forbush decreases caused by sheathless magnetic magnetic by sheathless caused decreases of Forbush model [1044] A simple clouds with inte decrease Forbush of [37] Relation [861] Analysis of the solar and interplanetary phenomena causing causing phenomena and interplanetary of the solar [861] Analysis rays. cosmic in decreases Forbush [392] NASA galactic cosmic radiati cosmic [392] NASA galactic ( [782] Cosmic ray hard sphere scattering in solar wind and heliospheric and heliospheric wind solar in scattering ray hard sphere [782] Cosmic 1963-2013 parameters: modulation [38] Forbush decrease[38] Forbush precursors obse to their relations and parameters Solar Flare [1281] Study of CME and cycle. 24 solar during decreases Forbush [39] A new method for determining atmospheric pressure coefficient by using coefficient pressure atmospheric for determining [39] A new method experiment muonsfast Fourier transform in the GRAPES-3 for [163] Rigidity dependence of the intensit of the [163] Rigidity dependence [92] Use of cosmogenic radionuclides 14C and 10Be to verify 10Be and 14C radionuclides of cosmogenic [92] Use empirically minimum solar rays during cosmic of galactic composition chemical [1047] The results E6 20/21 - Helios cycle of solar [90] Flux of solar energetic particles in of solar energetic [90] Flux hli h modulation rays cosmic the long-term in holes [1006] Coronal

time [id] title presenter

High-Light Talks - World

PoS(ICRC2015)1236

[1375] Summary of Results from the telescope Array Experiment Array Experiment telescope from the Results of Summary [1375] JUI, Charles

18:00 18:00

PoS(ICRC2015)1236 PARK, nahee PARK, nahee GIACINTI, Gwenael SECKEL, David FUJII, Toshihiro SHIMODA, Jiro

the supernova remnant W49B W49B remnant the supernova BRUN, Francois

in Supernova Remnants in Supernova Remnants KSENOFONTOV, Leonid ces in the W51 region region in the W51 ces TRICHARD, Cyril Region of the Galaxy Region POPKOW, Alexis cosmic-ray anomalies anomalies cosmic-ray Pasquale SERPICO, ce in the Fermi Bubbles Bubbles ce in the Fermi MERTSCH, Philipp on in the SNR W51C on in the SNR W51C Tobias JOGLER, chy and CP-violation chy and CP-violation SMIRNOV, Alexei ency at Realistic Supernova Remnant Remnant Supernova at Realistic ency cks in Young Supernova Remnants Remnants cks in Young Supernova POHL, Martin for an Extended Surface array at the Surface for an Extended celeration in Tycho with gamma-ray with gamma-ray in Tycho celeration Observatory Observatory Richard ENGEL, Ralph for the Fluorescence detector Array of Array detector for the Fluorescence d Forum Theater (09:00-10:30) d Forum - Yangtze 1 (11:00-12:30) [945] Evidence of two VHE gamma-ray sour [945] Evidence of two VHE gamma-ray ac particle [612] Study of high-energy observations of the Cygnus [400] The VERITAS Survey H.E.S.S. views and [1136] The Fermi-LAT of [1311] Revealing Cosmic-Ray accelerati Cosmic-Ray [1311] Revealing [472] Stochastic Acceleration by Turbulen Acceleration [472] Stochastic Shock From Ray Acceleration at Supernovae: of Cosmic [706] The Onset Decades to the First Breakout [72] Non-relativistic Perpendicular Sho Perpendicular [72] Non-relativistic Rays of Secondary Cosmic [404] Production Effici Production [316] On Cosmic-Ray [123] Diffusive cosmic ray acceleration at relativistic shock waves waves shock at relativistic ray acceleration cosmic [123] Diffusive Reinhard SCHLICKEISER, Shocks [735] JEM-EUSO Science Science [735] JEM-EUSO Program [694] The JEM-EUSO [738] First results from a prototype Andrea SANTANGELO, Angela V OLINTO, [1308] Upgrade of the Pierre Auger of the Pierre Auger [1308] Upgrade TAx4 Array extension: [1022] Telescope Potential Ray Science [1352] Cosmic IceCube Observatory Single-pixel Telescopes SAGAWA, Hiroyuki [1381] Neutrino properties, mass hierar properties, [1381] Neutrino [1387] Possible physics scenarios behind behind scenarios physics [1387] Possible

11:45 11:45 12:00 11:15 11:15 11:30 11:00 11:00 12:00 12:00 12:15 11:30 11:30 11:45 11:15 11:15 11:00 11:00 12:15 12:15 11:45 11:45 12:00 11:30 11:30 11:00 11:00 11:15 09:45 09:45 09:00 09:00

time [id] title presenter Parallel GA17 GAL / SNRs

time [id] title presenter Parallel CR20 TH accel - Yangtze 2 (11:00-12:30) Parallel CR20 TH accel - Yangtze

time [id] title presenter Parallel CR19 Future IN - Amazon (11:00-12:30) Parallel CR19

time [id] title presenter

Invited ReviewInvited - Worl Talks

Wednesday 05 August 2015 August 05 Wednesday

PoS(ICRC2015)1236 TORII, Shoji PANASYUK, Mikhail IVASCENKO, Alex AFANASIEV, Alexandr SPARVOLI, Roberta BITEAU, Jonathan BANGALE, Priyadarshini Matthias LORENTZ, ERLYKIN, Anatoly KARTAVYKH, Yulia HAHN, Joachim ions DORNER, Daniela Daniela ions DORNER,

Emission From Blazars From Emission Elisa Kay PUESCHEL, arged particles transport transport particles arged Cedric SCHREINER, lti-Wavelength Observat lti-Wavelength

ope Measurements on Balloons ope Measurements WAKELY, Scott vel temperatures to changes in the to changes vel temperatures extragalactic background light spectral light spectral background extragalactic Diffusion Coefficients in Turbulent in Turbulent Coefficients Diffusion Emission from the Galactic Supernova Supernova the Galactic from Emission ating Shock Structures Shock Structures ating GANSE, Urs azars with HAWC azars LAUER, Robert lescope (CALET): a High-Energy a High-Energy (CALET): lescope on the International Space Station Space Station International on the y detector KLYPVE on board the Russian Russian y detector KLYPVE on board the February 2014 flare of 1ES 1011+496 and 1011+496 and 2014 flare of 1ES February Forum Theater (11:00-12:30) Forum [725] The EUSO-BALLOON mission mission [725] The EUSO-BALLOON Peter VON BALLMOOS, [430] The CALorimetric Electron Te Electron [430] The CALorimetric Physics Observatory Astroparticle ra [1165] Ultra high energy cosmic Segment of the ISS [137] Mid-Decade Outlook for Balloon-Borne Particle Astrophysics Research Research Astrophysics Particle for Balloon-Borne Outlook [137] Mid-Decade William JONES, eXplorer [1287] The Heavy Nuclei Energy Light Isot [1290] Prospects for High CSES China Detector on board the [190] The High Energy Particle satellite Seismo-Electromagnetic John W. MITCHELL, Plasmas [1128] Method of New for Determination from shocks heliospheric in evolution and foreshock acceleration [1139] Particle simulations Monte Carlo self-consistent Ion Beams from Fluctu [1182] Helical total solar irradiance total solar irradiance on ch wave modes [222] Effects of dispersive in a focused waves shock with interaction particle of energetic [1080] Simulation model transport [135] Response of atmospheric ground le ground of atmospheric [135] Response energy distribution with H.E.S.S. with H.E.S.S. energy distribution Broadened Magnetically [832] VERITAS Search for TeV bl from monitoring [239] Results Mu Triggering Flare Alerts TeV [149] FACT - [309] MAGIC observations of the [309] MAGIC observations on the determination of the [641] Update [375] Gamma-ray cosmology and fundamental physics with TeV blazars: results TeV blazars: with physics and fundamental cosmology [375] Gamma-ray from 20 years of observations density Light Background of the Extragalactic measurement [1107] Study of the Very High Energy High Energy of the Very Study [1107] Remnant Population with H.E.S.S. H.E.S.S. with Population Remnant

15:30 15:30 15:15 15:15 15:00 15:00 14:30 14:30 14:45 14:00 14:00 14:15 12:15 12:15 11:45 11:45 12:00 11:30 11:30 11:15 11:15 11:00 11:00 12:00 12:00 12:15 11:45 11:45 11:30 11:30 11:15 11:15 11:00 11:00 12:15 12:15

time [id] title presenter Parallel CR21 Future IN - Amazon (14:00-16:00)

time [id] title presenter

Parallel SH08 - Mississippi (11:00-12:30) Parallel SH08 - Mississippi

time [id] title presenter Parallel GA18 EGAL - World GA18 EGAL Parallel

PoS(ICRC2015)1236 COLEIRO, Alexis COLEIRO, BONCIOLI, denise denise BONCIOLI, GEBAUER, Iris CARDILLO, Martina TIBALDO, Luigi

r-Kamiokande RICHARD, Euan Euan RICHARD, r-Kamiokande the Galaxy the Elena ORLANDO, Cosmic Ray Implications Ray Implications Cosmic Francesco DE PALMA, Optical Transients with Ashra-1 with Transients Optical SASAKI, Makoto millisecond gamma-ray pulsars pulsars gamma-ray millisecond Nicolas RENAULT-TINACCI,

monopoles obtained with IceCube IceCube with obtained monopoles Anna OBERTACKE, he rising positron fraction fraction he rising positron Christo VENTER,

from balloons to the ISS to the balloons from Eun Suk SEO, by the Fermi LAT GASPARRINI, Dario to extragalactic sources to extragalactic sources BLASI, Pasquale le on cosmic ray electron and positron electron and ray on cosmic le the Galactic center studied by center studied the Galactic s at Super-Kamiokande s at Super-Kamiokande WENDELL, Roger om type II Supernovae expanding in their expanding om type II Supernovae nts on cosmic-ray leptons in leptons cosmic-ray nts on Super Kamiokande Super NAKANO, Yuuki spheric Neutrino Flux at Supe Flux Neutrino spheric [588] Transient neutrino emission from neutrino emission [588] Transient ANTARES limit for mildly relativistic magnetic [383] New Atmo of the [70] Measurements [1027] Search for PeV-EeV Tau Neutrinos and and [1027] Search for PeV-EeV Tau Neutrinos Oscillation Neutrino [413] Atmospheric from results [830] Solar neutrino [1224] Gamma-ray Flares from the Gravitationally Lensed Blazar B0218+357 B0218+357 Blazar Lensed from the Gravitationally Flares [1224] Gamma-ray BUSON, Sara [1019] Phase resolved spectral analysis of 25 analysis spectral resolved [1019] Phase [1236] The 3rd Catalog of AGN Detected rays in Gamma New Light on Novae [1240] Fermi Reveals 100 MeV view of the sky below [988] A Fermi-LAT Chi CHEUNG, Thibaut DESGARDIN, [407] Tracing the propagation of cosmic rays in the Milky Way halo with Way halo rays in the Milky of cosmic the propagation [407] Tracing clouds intermediate-velocity high- and of observations Fermi-LAT LAT the Vela pulsar from Fermi view of [364] New SNR and SNR Catalog: [258] The First Fermi-LAT Giovanna PIVATO, spectra and anisotropy anisotropy and spectra to t contribution pulsar [126] The millisecond in diffuse clouds ray penetration [321] Cosmic environments molecular in ray interactions cosmic - [700] CRIME fr ray spectrum [913] On the cosmic wind presupernova red giant KRAUSE, Julian Giovanni MORLINO, [713] Are Cosmic Rays still a valuable probe of Lorentz Invariance Violations in Invariance of Lorentz still a valuable probe Rays [713] Are Cosmic the Auger era? Local Bubb impact of the [1131] On the constrai [1207] Multi-wavelength [530] Cosmic ray self-confinement close close self-confinement ray [530] Cosmic [339] Cosmic Ray Energetics And Mass: Mass: And Energetics Ray Cosmic [339]

15:00 15:00 15:15 14:45 14:45 14:15 14:15 14:30 14:00 14:00 15:45 15:45 15:15 15:15 15:30 14:45 14:45 15:00 14:15 14:15 14:30 14:00 14:00 15:30 15:30 15:45 15:00 15:00 15:15 14:45 14:45 14:15 14:15 14:30 14:00 14:00 15:45 15:45

time [id] title presenter

Parallel NU06 - Yangtze 1 (14:00-16:00)

time [id] title presenter Parallel GA19 Fermi - World Forum Theater (14:00-16:00) Parallel GA19 Fermi - World

time [id] title presenter

Parallel CR22 TH - Yangtze 2 (14:00-16:00) CR22 TH - Yangtze Parallel

PoS(ICRC2015)1236 DESIATI, Paolo USOSKIN, Ilya DORNIC, Damien Damien DORNIC, David RUFFOLO, CHOWDHURY, PARTHA KUDELA, Karel MOON, Y.-J KRAINEV, Mikhail Nicholas ENGELBRECHT, Eugene Donald NGOBENI, Stefano DELLA TORRE, MIYAKE, Fusa ion BURGER, Renier Renier BURGER, ion ory WALLRAFF, Marius Marius WALLRAFF, ory

ndent cosmic-ray ndent cosmic-ray modulat

IceCube Neutrino Observat Neutrino IceCube ter Cherenkov Observatory Observatory ter Cherenkov PRETZ, John emission from X-ray binaries with the the with X-ray binaries from emission jor solar energetic particle events on particle energetic jor solar the long-term variations in the GCR variations the long-term ION OF GALACTIC COSMIC RAY COSMIC ION OF GALACTIC ible diagnostic for the low-wavenumber for the low-wavenumber diagnostic ible spheric Neutrinos with the IceCube with the IceCube Neutrinos spheric

scattering parameters on particle drifts in the solar solar in the drifts on particle parameters scattering Forum Theater (17:00-18:30)

[1116] Recent Observations of Atmo Observations [1116] Recent Observatory Altitude Wa from the High [866] Highlights fluence for ma [103] Assessment of F200 time scale the multi-millennial modulation of galactic cosmic rays. rays. cosmic of galactic modulation Antarctic from data in Beryllium-10 ray event shown [865] The AD 775 cosmic ice core Dome Fuji [54] Modelling the effects of [54] Modelling the effects between Difference HelMod: with Rays Propagation [471] Cosmic approaches and backward-in-time forward-in-time SOLAR MODULATION DURING 1994–2007 1994–2007 DURING SOLAR MODULATION of mechanisms and [198] On the causes characteristics as a poss ray modulation [275] Cosmic field magnetic in the heliospheric of turbulence behaviour [1152] An ab initio approach to solar-cycle depe initio approach [1152] An ab INVESTIGAT [263] LATITUDE SURVEY rays during cosmic of galactic and periodicities modulation [724] Heliospheric 21-24 solarcycles ANTARES telescopesANTARES the with neutrinos for sterile [1112] Search [173] Time-dependent search of neutrino neutrino of search Time-dependent [173]

17:30 17:30 18:00 17:00 17:00 15:45 15:45 15:30 15:30 15:15 15:15 15:00 15:00 14:45 14:45 14:30 14:30 14:00 14:00 14:15 15:45 15:45 15:30 15:30

Conference diner - (20:00-23:45)

time [id] title presenter

High-Light Talks - World

Poster 3 - (16:00-17:00)

time [id] title presenter Parallel SH09 - Mississippi (14:00-16:00) Parallel SH09

PoS(ICRC2015)1236 Marianne Marianne

astronomy LEMOINE-GOUMARD, LEMOINE-GOUMARD, astronomy Forum Theater (16:00-16:45) Forum Theater (14:00-15:30) Forum Theater (09:00-10:30) Forum Theater (11:00-12:30) Forum Theater Theater (16:45-17:30) [1389] Ground-based gamma-ray gamma-ray [1389] Ground-based matter phenomena [1392] Dark CIRELLI, Marco [1393] Cosmic rays: air showers from low to high energies to high energies from low air showers rays: [1393] Cosmic VERZI, Valerio Astronomy [1390] Neutrino astronomy gamma-ray [1396] Space-based ISHIHARA, Aya Rolf BUEHLER, [1388] Solar and heliospheric phenomena and heliospheric [1388] Solar direct measurements rays: [1394] Cosmic Bernd HEBER, Paolo MAESTRO, 16:00 16:00 14:45 14:45 14:00 14:00 11:00 11:00 11:45 09:00 09:00 09:45

Closing - World Forum Rapporteur Talks - World [id] time presenter title Rapporteur Talks - World [id] time presenter title [id] time presenter title - World Rapporteur Talks - World Rapporteur Talks [id] time presenter title 2015 06 August Thursday PoS(ICRC2015)1236 Altamirano Altamirano

1295, 1301 1295, 1301 1221, 1335 1221, 1335 Albert, Andrea: 83 Albert, Andrea: 1206 Alberto, Oliva: 613 Sergey: Aleksandrin, 552, 584, 40 Viktor: Alekseenko, 170 Jelena: Aleksic, 1196 Bruno: Alessandro, 534 Firas: 511, Al-Hamadani, 742 Alicja, Wierzcholska: Aliu, Ester: 882 954 Allan, David: 966 657, 663, Allard, Denis: 843 Allison, Patrick: 10 Almutayri, Mohammed: 713 Aloisio, Roberto: 1309 Alonso, Gustavo: 10 Alotaib, Rakan: Amjad: 511, Al-Sawad, 915 Robles, Leopoldo: 692 Leopoldo: Robles, Altmann, David: 334 334 Altmann, David: 1369 Alvarez, César: 1204 554, Alvarez Pol, Hector: 630 531, 533, 227, Jaime: Alvarez-Muniz, 382 357, Jaime: Alvarez-Muñiz, 957 Amano, Sho: 210 Amans, Jean-Philippe: 976 Amato, Elena: 530, 913, Ambrosi, Giovanni: 294, 699, 919, 1145, 71 Fabio: Ambrosino, 294 Michelangelo: Ambrosio, 997, 972, Mikhail: 902, 1061, Amelchakov, 1209 535 Ameri, Dheyaa: 1168 Ampilogov, Nikolay: 1061, 1288 Vasily: Anashin, 654 Luis: Anchordoqui, 1110 1102, Grace: Andeen, Karen 1174 Brandon: Anderson, 55 Ando, Shin’ichiro: 810 Sofia: Andringa, I.: 870 Angelov, 1151 Anghinolfi, Marco:

Aguilera,

Author Index Author

Al

Al

andr: 1139 andr: 1139 647, 963, 1197, 1254, 1280, 1304, 1380 1380 1304, 1254, 1280, 647, 963, 1197,

Jassar, Hala K.: 117 Jassar, Hala K.: Aiemsa-Ad, Nalinee: 441 441 Nalinee: Aiemsa-Ad, 128 Ajello, Marco: 667 Akaike, Yosui: 1328 Akbiyik, Melike: Akiyama, Sachiko: 81 Ahnen, Max Ludwig: 85 Ludwig: Ahnen, Max Agarwal, Rekha: 454 Agarwal, Rekha: 969 Michel: Ageron, 1253 1021, Agueda, Neus: 1230 Aguilar, Adolfo: 924 Juan Antonio: Aguilar Sanchez, Adams Jr., J.H.: 1024 Adams Jr., 1062 304, Adriani, Oscar: Afanasiev, Alex 1095 Abbasi, Rasha: 142 136, Abdollahi, Soheila: 556 202, 236, Alessio: Aboudan, 744 Matheus: Abrahão, 810 Abreu, Pedro: 127 Abril, Oscar: 1038 Abunin, A.: 870, 489 478, Abunin, Artem: 489 478, Abunina, Mariya: 1185 839, Abuzayyad, Tareq: 699 Acerbi, Fabio: 258 Acero, Fabio: 754 Achterberg, Abraham: 432 429, Adams, James: 644 Adams, Jenni: 1283 860, Adams, Jim:

Jassar, Hala. K.: 131 K.: Hala. Jassar, 1159 Al Samarai, Imen: 753, 970, 1284, 1231, 1249, 586, 1055, Alania, Michael: Gastón: 750 750 Gastón: 620, 69, 146, 313, 515, 596, Felix: Aharonian, 391 Ahlers, Markus: 219, 776 H.S,: Ahluwalia, 782 H.S.: 778, Ahluwalia, 45 44, Ahmad, Shakeel: PoS(ICRC2015)1236

Bagliesi, Bagliesi,

1016, 1075, 1302, 1364 1364 1302, 1016, 1075, 1193, 1199, 1203, 1204, 1209 1209 1204, 1203, 1193, 1199, Banasin´ski, Piotr: 186 541 309, Bangale, Priyadarshini: 1026 Banjac, SaŽa: 975 Banjac, Sasha: 775 Bao, T.W.: 902, 1061, Natalia: 683, Barbashina, 1168, 236 Christine: Cecile Barbier, 773 Tomasz: Barcin´ski, 1219 Baret, Bruny: 341, 588, 592, 767 Baron, Casey: 1257 1239, Marco: Barrantes, 1118 Ulisses: Barres, 58 De Almeida, Ulisses: Barres Andreas: Pierre Barrillon, 860, 971, 1016, 625, 1075 862 Barrio, Juan Abel: 719, 127 Barrio, Juan-Abel: 1279 636, Barrios Martí, Javier: 634, Balakrishnan, Hari Haran: 44 Balakrishnan, 46 Balazs, Csaba: 1050 Ballet, Jean: 1071 729, 954, 277, 506, 565, Arnim: Balzer, 316, 629 Bamba, Aya: 25 Piotr: 24, Banasinski, Ayala, Hugo: 379, 739, 1341 Ayala, 247 238, Alberto: Hugo Solares, Ayala 1335 1145, 1221, Philipp: Azzarello, 497 Baas, Vincent: Ana:Babic´, 346 Bach, Uwe: 288 767 Randy: Bachman, Simon: 625, 632, 639, 860, Bacholle, 966, 476 Badoni, Davide: 1111 .: 1104, Badruddin, 111 Baerwald, Philipp: Baginski, Frank: 843 Maria Grazia: 705 Maria Grazia: 142 136, Mahmud: Bahmanabadi, Baiyang, Bi: 324 525 Alexey: Bakaldin, 1357 1036, 1241, Balabin, Yury:

1239,

813, 813,

Assis, Assis,

K.P.: 36, 39

819 382, Anita, Collaboration: 38 M.: Antia, H. 37, 163 Antia, H.M: 160, 513 Antia, H.M.: 36, 39, 236 Antonelli, L. Angelo: 783 505, 556, 410, Antonelli, Lucio Angelo: 930 Antonova, Valentina: 120 M.: Anzorena, Anzorena,911 Marcos: Alfonso: Marcos Méndez, Anzorena 1257 1257 1041 Aplin, Karen: 424 284, 294, Aramo, Carla: 774 Avery: Archer, 342 Gerhard: Markus Archinger, Pedro Jorge: 810 810 Pedro Jorge: 1204 1203, Ivan: 1061, 1199, Astapov, 92 Eleanna: Asvestari, 561 Atkin, Eduard: 860 Attallah, Reda: 957 Attie, David: 734 650, Aublin, Julien: 960 959, Auffenberg, Jan: 622, 955, 1098 Aupetit, Sandy: 942, 870 Autran, Jean-Luc: 1229 Avdishyan, Hayk: Máximo: 1117 Ave, 980 Maximo: Ave-Pernas, Arunbabu, Arunbabu, 893 594, Yoichi: Asaoka, 729 Ashton, Terry: 870 A.: Asipenka, 1111 1104, Aslam, Opm: 1146, 1190, Hernan: 214, 815, 1238, Asorey, 1256 Pedro: Assis, 712 Ardid, Miguel: 366, 1265 1265 366, Ardid, Miguel: 211 Argynova, Aliya: 954 107, 191, 668, Armstrong, Thomas: 719 Fernando: Arqueros, 465 209, 236, Arrabito, Luisa: 90 Artamonov, Anton: 74, Juan Carlos: Arteaga-Velazquez, 670 PoS(ICRC2015)1236

1046, 1058 1046, 1058 y, Jerzy: 1281 y, ł Bernardini, Elisa: 175, 267, 504, 587 587 504, 175, 267, Elisa: Bernardini, 1031 1029, Paolo: Bernardini, 775 Tancredi: Bernasconi, 975 Berndt, Cedric: 1319 Sabrina: Bernhard, 329 Konrad: Bernloer, 465 209, Konrad: Bernlöhr, 653, 577, 590, 611, 632, 639, Bertaina, Mario: 1198 899, 925, 1074, 682, 860, 889, 890, 892, E.: Bertaina, Mario 939 570 Edoardo: Bertaina, Mario 1265 969, Bertin, Vincent: 750 Bertinat, Juan: 1164 Bertone, Gianfranco: 1335 952, 1221, 609, 294, Bertucci, Bruna: 1126 660, 826, Besson, Dave: 841 Besson, David: 750 Roberto: Bevilacqua, 526 Bhadra, Arunava: 893 Saptashwa: Bhattacharyya, 1298 Biagi, Simone: 1127, Bia 792 Bicknell, Geoffrey: 441 263, 434, 117, 131, W.: Bieber, John 767 Bigler, Colton: 705 501, Gabriele: Bigongiari, 1171 Biktemerova, Svetlana: 1177 Biland, Adrian: 78 Bilnik, W.: 1253 853, 857, 958, Bindi, Veronica: 841 Binns, Robert: 814 Binns, W.: R.: 1264, 1314 Binns, W. Robert: 1287 Binns, W. Benzvi, Segev: 147, 216, 217, 220 220 147, 216, 217, Benzvi, Segev: 404 Evgeny: 113, Berezhko, 556 Sonia: Bergamaschi, 954, 63, 506, 596, Berge, David: 647, 729, 839 837, 57, 808, Douglas: Bergman, 870 Berkova, M.: 957 Leon: Robert Denis Bernard,

25, 26, 186, 289, 25, 26, 186, 289, 292, 775 824, 868, 1101 1089, 1253 1089, 1253

Bazo Alba, Jose Luis: 1221, 1335 1221, Bazo Alba, Jose Luis: James: 145, 843 Beatty, 485 Josefa:Becerra, 1220 927, Josefa: Gonzalez, Becerra 1186 Javier:Barrios-Martí, 1274 Bartels, Richard: 891 Steven: 820, Barwick, 969 Basa, Stéphane: 1229 George: Bashindzhagyan, 556 236, Bastieri, Denis: Batsch, Tadeusz: 1139 Battarbee, Markus: 1335 1221, Battiston, Roberto: 1319 Bauer, Christian: 247 Brian: Baughman, 1063 Baum, Volker: 1328 1162, 685, Samuel: Baur, Sebastian 1328 1162, 1108, Baus, Colin: 639 585, Bayer, Joerg: 682 577, 590, 570, Bayer, Jörg: 1025 Bayer, Jorg: Galina: 230, 437, 439, Bazilevskaya, 1041, Becerra González, Josefa: Josefa: 783 González, Becerra 1123 Yvonne: Becherini, 1297 841, Bechtol, Keith: 660, 826, 828, Beckmann,665 Volker: 24, Wlodek: Bednarek, 360 360 1051 Beer, Jürg: 1098 942, Genevieve: Belanger, 1309 Tomas: Belenguer, 1369 Belfiore, Andrea: 711 Bell, Anthony R.: 706, A.: 864, 1038 Belov, Anatoliy: 478, 489 Belov, 1006, 1357 Anatoly: Belov, 841 660, 826, Konstantin: Belov, 1260 572, 863, Belz, John: 1039 Benade, G.: Benbow, Wystan: 556 Domenico: Beneventano, Jean-Luc: 549 Beney, PoS(ICRC2015)1236

Bonvicini, Valter: 1062 1062 Valter: Bonvicini, 841 Borch, Kyle: 660, 826, 1280 620, 1197, Pol: 278, Bordas, 681 Vladimir: Boreiko, 784 Alexander: 245, Borisov, Anatoly: 1168 Borisov, 1179 556, Borkowski, Jerzy: 506 Borkowski, Jurek: 1090 Mathis: Börner, 1199 Borog, Vladimir: 772 Francesco: Borracci, 952 471, 609, Boschini, Matteo: 687 Bose, Debanjan: 1314 Bose, R. G.: 1264, 342 Sebastian: Böser, 1263 Bottacini, Eugenio: 879, 1000 999, Böttcher, Markus: 102 Laurent: Bouchet, 1098 942, 946, Mathieu: Boudaud, 210 Jean-Jacques: Bousquet, 1276 1276, Mieke: Bouwhuis, Charles: 1154 Bower, 1283 Bozzo, E: 1362 Roberto: Braga, Carlos Brakke, Kenneth: 843 843 Brakke, Kenneth: 789 Marica: Branchesi, 1314 1264, J.: 258, 798, 817, Brandt, T. 874 Brantseg, Tom: Brasolin, Sandro: 294 236 Sylvie: Brau Nogue, 1264 Braun, D. L.: 665 Sylvie: Brau-Nogué, Ulisse: 516, 1248 Bravar, 1337 Bravo, Silvia: 531, 533, 645 Justin: Bray, 193 Brayeur, Lionel: 465 329, 209, 236, Johan: Bregeon, 1324 Bressel, Stephan: 597 Bretz, Hans-Peter: 960 518, 622, 955, Bretz, Thomas: 673 Brian, Humensky: 46 Torsten: Bringmann, 362 Britto, Richard:

902, 1061, 1209 1209 902, 1061, 683, 918, 972 683, 918, 1168 322, 330 322, 330 cki, Jan: 914 cki, Jan: 914 ł Bogdanov, Fedor: 997 899 Bogomilov, Maryan: 1286 72, Bohdan, Artem: 236, 329, 556, 665, Boisson, Catherine: 965, 1123 563 127, Bolmont, Julien: 429 Massimiliano: Bonamente, 1324 Bonardi, Antonio: 62, 962, 713 Boncioli, Denise: 71 Bonechi, Lorenzo: 705 Bonechi, Simone: Bonnefoy, Simon: 283 Bonnivard, Vincent: 509 410, Bonnoli, Giacomo: Bleve, Carla: 1121 1121 Bleve, Carla: 1075 Blin, Sylvie: 625, 1016, 338 Bluemer, Hans: 471, 682 Bobik, Pavol: 1302 653, 1074, Bobík, Pavol: 1135 Christian: Bockermann, 1280 1123, Markus: 313, Boettcher, 1377 1248, Boezio, Mirko: 900 Bogacz, Leszek: Bogdanov, Aleksey: Bogdanov, Alexei: Bogdanov, Alexey:

826 394, 660, 817, Binns, Walter: 1073 1068, 1070, Bird, Ralph: 661 Francesca: Bisconti, 1071 723, 728, Elisabetta: 294, 699, Bissaldi, 161 Bisschoff, Driaan: 526 Sayan: Biswas, 1052 372, 375, Biteau, Jonathan: 294 Bitossi, Massimiliano: Carl: 1016, 1364 Blaksley, 289, 290, 203, Oscar: 127, Blanch Bigas, 295, 862, 940 554 Blanco, Alberto: 1204 554, J.: Blanco, Juan 1204 Alberto: 810, Castro, Blanco 976 530, 713, 740, 913, Blasi, Pasquale: 741 Blaufuss, Erik: B PoS(ICRC2015)1236

Carquin Lopez, Edson: 368 Edson: Carquin Lopez, 46 Carr, John: 1369 Alberto: 35, Carramiñana, 1191 1109, Alonso, Alberto: Carramiñana 1191 Esperanza: Licea, Carrasco 1213 Edgar: Jarrin, Carrera Bütikofer, Rolf: 898 Rolf: Bütikofer, 1101 824, Byrum, Karen: 722 Caballero, Rogelio: 260 53, Rogelio: Caballero-Lopez, 734 Lorenzo: Caccianiga, 1145 65, Raphael: Frank Cadoux, Robert: 1004, 1054 Cady, 1155 860, 655, Francesco: Cafagna, 936 Cai, Hui: 842, 767 Cain, Austin: 1044 Jasa: Calogovic, Calore, Francesca:1140 957 Calvet, Denis: 1101 Rob: Cameron, 824 Robert: Cameron, 1155 860, Donatella: Campana, 506 Jordi: Camprecios, 799 Cane, Hilary: 727 Nicholas: Cannady, Cao, Zhe: 307 885 425, 833, Cao, Zhen: 1324 1319, Massimo: Capasso, 1033 Jean-Noël: Capdevielle, 1173 Fabio: Capela, 692 Tomás: Capistrán, 1385 Damiano: Caprioli, 423 Micaela: Caragiulo, 1309 J: Carbonell, 1172 Josh: Cardenzana, 913 Cardillo, Martina: 549 Herve: Carduner, 889 Carli, Daniele: 579 289, Emiliano: Carmona, 1218 Caroff, Sami: 942, 1098, 810 Carolino, Nuno: 783 509, 556, 236, 505, Carosi, Alessandro: Carosi, Roberto: 294

920, 923, 977, 992, 1067, 1294 1294 992, 1067, 920, 923, 977,

775 Britvitch, Ilia: 705 501, 510, Brogi, Paolo: 810 Pedro: Brogueira, 359 358, Brose, Robert: 954 644, 668, Brown, Anthony: 107, 1338 Martin: Brueckner, 957 364, Bruel, Philippe: Burgess, J.Michael: 1341 1341 J.Michael: Burgess, 1209 Vitaliy: Burtsev, 902 Vitaly: Burtsev, 1331 Buscemi, Mario: 294 Busetto, Giovanni: 1224 Buson, Sara: 556, 927, 1135 174, 298, 1130, BuSS, Jens: 111 Mauricio: Bustamante, Burger, Renier Adriaan: 275 Adriaan: Renier Burger, Brügge, Kai Arno: 1135 Kai Arno: Brügge, 968 Bruijn, R: 313 Brun, François: 1136, 666, 729, 277, 627, 631, Brun, Francois: 1299 127 Brun, Patrick: 641 Brun, Pierre: 1077 532, 703, Juergen: Brunner, 969 Jurgen: Brunner, 1248 519, Bruno, Alessandro: 516, 517, 344 Bruno, Gianmarco: 767 Bruzgo, Darek: 596 Bryan, Mark: 62 46, Trygve: Buanes, 169 Bub, Daniel: James: 824 Buckley, 1396 Rolf: 695, Buehler, 126 Ingo: Buesching, 1253 Rolf: Buetikofer, 841 660, 826, Viatcheslav: Bugaev, 671 497, Buis, Ernst-Jan: Buitink, Stijn: 533, 645, 766, 241, 492, 531, Bulatov, Vadim: 561 556 236, 329, Bulgarelli, Andrea: 61, 202, 767 Burg, Martin: 1161 1152, Renier: Burger, PoS(ICRC2015)1236

Christian, Eric R.: 516 516 R.: Eric Christian, 860 429, Mark: Christl, Asen: 734 Christov, Martyna: 900 Chrus´lin´ska, 623 245, Alexander: Chubenko, 648 Piyanate: Chuychai, 1331 Cilmo, Marco: 71 Luigi: Cimmino, 294 Agnese: Ciocci, 1236 Stefano: Ciprini, 1392 946, Cirelli, Marco: Chen, Chin-Hao: 660, 826, 841 841 660, 826, Chin-Hao: Chen, 1235 1233, 1225, 1201, Ding: Chen, Mingjun: 894, 908, 941, 985, Chen, 1042, 1079 1100 Pisin: 660, 826, 841, Chen, 285 Songzhan: 162, Chen, 936 138, 842, Tianlu: Chen, Xu: 1235 Chen, 1325 Yanping: Chen, 1001 Liu: Cheng, 877 Byunggu: Cheon, Dmitriy: 1209 Chernov, 1168 Dmitry: 683, 902, 1037, Chernov, Michael: 727 Cherry, 1224 C.C.: Cheung, 1240 Chi: Cheung, Jill: 933 Chevalier, Chi, C.-J.: 1113 1298 Tommaso: Chiarusi, 1061 458, 464, Andrea: Chiavassa, 1239 Kato: Chihiro, 58 Michi: Chikawa, 372 David: Chinn, 466 Chiritoi, G.: 58 Cho, Norihito: 1140 Ilias: Cholis, 1335 Evgueni: 1221, Choumilov, 1335 311, 1221, Vitaly: Choutko, Chowdhury, Partha: 724 1013 563, Chrétien, Mathieu: 814 E.: Christian, 1248 373, 394, 799, Eric: Christian,

792 Carretti, Ettore: 666 Svenja: 627, Carrigan, Carrretero,393 Jesus: 1198 Caruso, Rossella: 630 357, Washington: Carvalho, Chang-Es Team, -: 1237 Team, Chang-Es 549 Didier: Charrier, 1219 Eric: Chassande-Mottin, 284 A: Chatterjee, 1299 666, 627, Ryan: Chaves, 1107 973, C. G.: Ryan Chaves, 1356 Alan: Chavez-Meza, 705 Caterina: Checchia, 500 Valery: Chechin, 641 Andrew: Chen, 1100 C.-C.: Chen, 1100 C.-H.: Chen, 1100 C.-W.: Chen, Carvalho Jr, Washington R.: 382 R.: Washington Jr, Carvalho 1107 882, 963, Sabrina: Casanova, 101 Giampetro: Casasanta, 193 Martin: Casier, 1165 854, 846, 560, Marco: Casolino, 889 Claudio: Cassardo, 1302 717, 860, Camille: Catalano, 294 Catalanotti, Sergio: 1236 Elisabetta: Cavazzuti, 1213 1190, Ramírez, Dennis: Cazar 810 Lorenzo: Cazon, 789 Cella, Giancarlo: 810 Cerda, Marcos: 775 Ignacio: Cernuda, 764 762, Cerruti, Matteo: 1138 804, Cerutti, Francesco: Ch, J.Y.: 775 127 Eric: Chabanne, 954 668, Paula: 62, 107, 278, 644, Chadwick, 1187 547, Nachiketa: Chakraborty, 1015 565, 938, Raphaël: Chalmé-Calvet, 729 Thomas: Chaminade, 127 Cédric: Champion, Anuj: 44, Chandra, 45 Carvalho Cernicchiaro, Geraldo: 810 Geraldo: Cernicchiaro, Carvalho PoS(ICRC2015)1236

Juan: 121, 197, 289, 290, 308 308 290, 197, 289, 121, Juan: o, Marcin: 370 o, Marcin: ł

541, 579, 541, 783 Covino, Stefano: 410, 826, 841, 826, 841, Corona, 127 Pascal: 558, 799, 558, 799, 821, 1230 Pinto, Joao: Costa Constantini, Heide: 191 191 Heide: Constantini, 1198 Giovanni: Contino, Cutini, 1236 Sara: 1370 Da Silva, Luiz: Clark, Ken: 1379 1379 Clark, Ken: 346 Luis: Contreras, José 1277 Correa, Pablo: 241 241 Pablo: 743 597, Lew: Classen, 240, Roger: 1300 Clay, 660, 263, 434, 441, Clem, John: Correa, 1277 Ed: 103 Cliver, 82 Edward: Cliver, 1331 Michael: Coco, 328 Antonio: 143, 144, Codino, 719 329, 236, Luis: Contreras, Jose 187 Stefan: Coenders, 954 Peter: Cooke, 176 Corti, Daniele: 1294 992, 1067, Arthur: 492, 766, 920, Corstanje, 923, 958 853, 857, Corti, Claudio: 977, Cortina, Cohen, C.: 818 C.: 818 Cohen, 373, 389, Christina: Cohen, 1222, 1242 128 Jamie: Cohen, 1174 Johann: Cohen-Tanugi, 268 Romain: Cohet, 313 Sergio: Colafrancesco, 810 Colalillo, Roberta: 957 Paul: Colas, 588 Alexis: Coleiro, 1198 Cotto, Giorgio: 236 Alessandro: Costa, Colin, Pierre: 288, 251, 66, 199, 203, 736, 1167 965 954, Cotter, Garret: 1204 José: Collazo, 1054 B: Courty, 554 Jose: Collazo, Costantini, Heide: 1151 1333 Cotzomi, Jorge: 705 Gianmaria: Collazuol, 35 Sara: Coutiño, 797 Laura: Collica, 1054 S: Collonges, 1187 553, 547, Gabriele: Cologna, 1290 1154, Coutu, Stephane: 1054 Covault, Corbin: 506 Josep: Colomé, 556 Pep: Colomé, 127 Stéphane: Colonges, 1216 Ramanath: Cowsik, 889 Roberto: Cremonini, 283 Combet, Céline: 1335 1221, 952, Marta: 609, Crispoltoni, 871 Kyle Stuart: 374, Cranmer, 537 Ruben: Conceição, Cowen, 680 Douglas: 423 Benjamin: Condon, 1275 John: Cressler, 506, 556 Conforti, Vito: 1127 Alexandre: 937, Creusot, 1175 Rosa: Coniglione, 1081 824, 130, Valerie: Connaughton, 824 Stephen: Criswell, 792 431, Roland: Crocker, 1126 Amy: 843, Connolly, 1101 1361 Jan: Steve: Conrad, Criswell, 958 857, 853, Cristina: Consolandi, 1247 1331 Crook, Corbett: Norma: 1253 Crosby, 294 Rinaldo: Consoletti, 827 470, 524, Cui, Shuwang: Cummings, A.: 814 799, Alan: 373, 394, 702, Cummings, 810 Orlando: Cunha, 821, 767 Austin: Cummings, 1331 Austin Lee: Cummings, Cury

PoS(ICRC2015)1236

De De

1015, 1197, 1280 1280 1015, 1197, Nolfo, Georgia A.: 516 A.: Nolfo, Georgia 251, 289, 292, Emma: Wilhelmi, De Ona 295, 360, 647 1167 Emma: Wilhelmi, De Oña 798 294, De Palma, Francesco: 258, Del Valle, Maria: Maria: 1144 Del Valle, 729 127, Eric: Delagnes, 957 Alain: Delbart, 862 Carlos: Delgado, Jose: Carlos Mendez, Delgado 1335 127, 1221, 1159 1065, Olivier: 753, 758, Deligny, 952 609, 471, 496, Stefano: Della Torre, D.: 78 Della Volpe, 1179 65, Domenico: Della Volpe, 365 363, Hans Peter: Dembinski, 475 Den, Mitsue: 831 Jianrong: Deng, 549 Laurent: Denis, 784 Valentina: Denisova, 1222 Haggerty: Dennis, 589 286, 455, Marie: Yves Derome, Laurent 558 Mihir: Desai, 988 Thibaut: Desgardin, De Lotto, Barbara: 294 294 Barbara: De Lotto, 878 Joao: 810, Neto, De Mello 1031 1029, De Mitri, Ivan: 917, 314, 565, 729, Mathieu: De Naurois, 938, 1248 De Noflo, Georgia: 814 De Nolfo, G.: De Nolfo, Georgia: 394 284 De Persio, Fulvio: 556 De Rosa, Adriano: 202, 810 Vitor: De Souza, 671 Jan: De Vreugd, 1180 241, 630, Krijn: De Vries, Gwenhaël: 194 De Wasseige, 587 De With, Meike: 1299 666, 695, 627, 646, 665, Deil, Christoph: 890, 929, 979, 1008, 393, Del Peral, Luis: 1309 1302, 1292, 1024, 1283, 342 Del Pino Rosendo, Esther: De Los Reyes, Raquel: Reyes, Raquel: Los De 605 329, 556, 603, 236,

Davids,

Davies, Davies,

1075 1075

810 Mauricio: Ruben Conceicao, Da Silva Isak Delberth: 646 Isak Delberth: 1215 1215 630 De Jong, Sijbrand: De Boer, Wim: 825 Wim: De Boer, 1220 Gessica: De Caneva, 329 Giovanni: De Ceasare, 556 236, 61, 202, De Cesare, Giovanni: 954 Andrea: De Franco, Dal Pino, Elisabete: 1144, De Gouveia 1149, Daniels, W. M.: M.: 1264 W. Daniels, 744 G.: Wellington Dantas, 936 138, 842, Luobu: Danzeng, 128 Gasparrini: Dario, 1229 Ara: Daryan, 1256 214, 408, 815, Sergio: Dasso, 957 Daté, Schin: Kai: Daumiller, 371 Da Vela, Paolo: 294, 410, 1134 1134 410, 294, Paolo: Da Vela, 531 Rustam: Dagkesamanskii, Sylvie: 625, 860, Dagoret-Campagne, 1016, Dai, Uri: 1038 996 Elena: Daibog, Brian: 843 Dailey, 1362 Alisson: 117, 131, Dal Lago, 71 Lel: D’alessandro, 1150 Oleg: 245, 325, 623, Dalkarov, 1228 Dalla, Silvia: 106, 566, 1044, 1072 549, 645, Richard: Dallier, 995 Dalton, Matthew: 963 Dalton, Matthiew: 1029 917, Antonio: D’amone, 976 530, Marta: D’angelo, 1097 Bruno: Daniel, 954 63, 107, 180, 181, Michael: Daniel, Jonathan: 1126 1126 Jonathan: 814 Davis, A.: 558 Dayeh, Maher: 608 294, 330, 62, 176, Francesco: Dazzi, De, J.N.: 526 744 De Almeida, Rogerio M.: 294 176, Alessandro: De Angelis, PoS(ICRC2015)1236

1080, 1115 1080, 1115 Dos Anjos, João: Anjos, João: Dos 744 Dournaux,210 Jean-Laurent: 1264, 1314 F.: Dowkontt, P. 372 Doyle, Kevin: 1282 Evangelia: Drakopoulou, 1115 983, 91, 171, 601, Nina: Dresing, Alex: 170, 1174 Drlica-Wagner, Dröge, Wolfgang: Luke: 281 Drury, Arvind: 576, 582 Dubey, 1280 Guillaume: Dubus, 1106 1084, S.R: 160, 163, Dugad, 513 Shashi: 36, 37, 38, 39, Dugad, 45 Shashi R: 44, Dugad, 434 Marc L.: 263, Duldig, 131 Marcus L.: 117, Duldig, 210 Delphine: Dumas, 1044 Mateja: Dumbovic, 556 Dumm, Jon: 1119 Dunzlaff, Phillip: 274 127, Durand, Dominique: 1335 952, 1221, Duranti, Matteo: 385, 609, 1335 952, 1221, 609, 294, D’urso, Domenico: 1168 Lev: 683, 902, Dushkin, 1166 786, 342, 418, Michael: Duvernois, 598 Emily: Dvorak, 399 Vikram: Dwarkadas, Donath, Axel: 627, 646, 666, 695, 1299 1299 695, 627, 646, 666, Axel: Donath, Donato,Fiorenza: 356 760 451, Jianing: Dong, Dong, Y.W.: 775 Dong, Yifan: 919 1335 1221, 609, 952, Federico: Donnini, 129 Donzelli, Carlos: 671 Ed: Doppenberg, 864 Dorman, L.: 782 Dorman, L.I.: 1038 1023, 870, 1006, Dorman, Lev: 149 Daniela: Dorner, 969 588, 624, 173, 341, Dornic, Damien: 424 346, 46, 63, 66, 204, 294, Doro, Michele: 802 Dorofeeva, Elizaveta: Vyacheslav: 561 Dorokhov,

1037, 1193, 1199, 1204 1037,

294 292, Rachele: Desiante, 1116 390, 598, 656, Paolo: Desiati, 176 Dettlaff, Antonios: 1237 Dettmar, Ralf-Juergen: 849 Dettorre, Benedetto: 43 Choudhury, Balendra Kumar: Dev Dominis Prester, Dijana: 927 927 Dijana: Prester, Dominis Dietrich, William F.: 1051 F.: William Dietrich, 1309 Laura: Diez-Merino, 1207 Digel, Seth: 407, 733 Stavros: Dimitrakoudis, 1296 402, Brenda: Dingus, 1143 810, Francisco: Diogo, 1299 1013, 978, Arache: Djannati-Atai, Dmitrieva, Anna: 918, Dmitrotsa, Andrei: 681 681 Andrei: Dmitrotsa, 371 Doebrich, Babette: 134 Vladimir: Dogiel, 845 Marco: Dolci, 1071 277, 600, Wilfried: Domainko, 246 Alberto: 128, Dominguez, 750 Leonardo: Dominguez, Diaz Velez, Juan Carlos: Juan Carlos: 1342 Velez, Diaz 1324 Dick, Juergen: 1207 Clive: Dickinson, 1052 Hugh: 278, 395, Dickinson, 1284 G.: Didebulidze, 1324 1319, Sebastian: Diebold, 1206 Tescaro: Diego, 598 Paul: Dieterle, 1154 Muller: Dietrich, 1329 Peter: Dietrich, William: Dietrich, 103 Deyoung, Tyce: 955 955 Tyce: Deyoung, 882 294, 723, 285, Tristano: Di Girolamo, 294 Di Giulio, Claudio: 713 218, Di Matteo, Armando: 356 Mattia: Di Mauro, 509 209, 465, Di Pierro, Federico: 1163 564, 524, Giuseppe: Di Sciascio, 274 Carlos: Diaz, Diaz Ginzo,127 Carlos: 368 Marco Aurelio: Gutierrez, Diaz PoS(ICRC2015)1236

7, 590, 611, 632, 639, 639, 590, 611, 632, 7,

992, 1067, 1294, 1399 1399 1294, 992, 1067, 653, 682, 925, 939, 1074 939, 653, 682, 925, Favre,65 Yannick: 358 Simone: Federici, 1360 1313, 1108, 1162, Fedynitch, Anatoli: 127 Fegan, Steven: Fei, Zhang: 919 848 Felde, John: 984 451, 168, 307, Feng, Changqing: 150 Feng, Cunfeng: 253 Feng, Shaohui: 192 Feng, Xueshang: 974 831, 880, 881, 630, 788, Feng, Zhaoyang: Fenu, Francesco: 570, 57 1107 Diane: 973, Fernandez, Pablo: Fernández, 95 701 Mateo: Alonso, Fernandez 1196 Arturo: Tellez, Fernandez 295 Alba: Fernandez-Barral, 1309 S: Fernandez-Gonzalez, 979 S.: Fernández-González, 889 Ferrarese, Silvia: Euler, Sebastian: 508 508 Euler, Sebastian: 767 Evans, Anna: 556 Evans, Phil: 434, 117, 131, 194, 263, Evenson, Paul: 441, 1277 1140 Evoli, Carmelo: 1309 1283, 1292, J.: Soriano, F. 180 Malcolm: Fairbairn, 1168 Rinat: Fakhrutdinov, 923 Falcke, H.: 492, 531, 533, 645, 754, 766, Falcke, Heino: 920, 393 Falk, Stefanie: 342 Falke, Peter: 747 Fan, Yizhong: 1272 834, 630, Fang, Ke: 656 Ryan: Farber, 1361 46, Christian: Farnier, 1326 654, 1325, Farrar, Glennys: 210 Gilles: Fasola, 387 Fauth, Anderson: 235 Campos: Fauth, Anderson

: 370, 674, 742, 882 742, : 370, 674, ł 1152, 1161 1152, 1161

Enriquez, Emilio: 766, 1067, 1294 766, 1067, Emilio: Enriquez, Eberhardt, Benjamin: 1063 1063 Benjamin: Eberhardt, 748 Eberl, Thomas: 661 Ebersoldt, Andreas: 558 Ebert, Robert: Ebert, Ute: 492 1165 939, 836, Toshikazu: Ebisuzaki, Jan: 104, 495 Ebr, 694 Toshikazu: Ebusuzaki, 1309 Carlos: Echeandia, 566 Frederic: Effenberger, 1299 600, Eger, Peter: 596, 1005 David: Eichler, 174 Einecke, Sabrina: 1319 Felix: Eisenkolb, 645 531, 533, Ekers, Ron: 1077 Imad: Elbojaddaini, 180 Dimitris: Emmanoulopoulos, 1384 1108, 685, Engel, Ralph: 802, 1308, Richard: 371, Engel, Ralph 1313, 1360 Nicholas Engelbrecht, 114, 275, Eugene: Dyrda, Micha Espirito Santo, Maria: 810 Maria: Espirito Santo, 1117 Alberto: Etchegoyen, Ernenwein, Jean-Pierre: 127, 278 278 127, Jean-Pierre: Ernenwein, 1038 E.: 864, Eroshenko, 489 Evgeniya: 478, Eroshenko, 1101 130, 824, Manel: Errando, 1058 Stefan: Eschbach, 1331 860, 432, 767, Eser, Johannes: Joao: Espadanal, 810 Erlykin, Anatoly D.: 159 Enriquez, J. Emilio: 992 Emilio: J. Enriquez, 492 J.E: Enriquez, 977 920, 923, J.E.: Enriquez, 722 716, Olivia: Enriquez-Rivera, 602 Torsten: Ensslin, 1338 Epimakhov, Sergey: 1305 Martin: Erdmann, 584 Eremina, Nadezhda: 135 Erlykin, Anatoly: 133, 134, PoS(ICRC2015)1236

1052, 1319 1052, 1319 781, 877, 1004 1004 781, 877, Fouka, Mourad: 860 860 Fouka, Mourad: 1155 Fouka, Muorad: 176 127, Nadia: Fouque, Fox, Derek:680 787 Fraija, Nissim: 1167 Giordano: Francesco, 1024 979, 1008, S.: Franchini, 1309 1283, Sebastian: Franchini, 472 Anna: 86, Franckowiak, 900 Adam: Frankowski, 1327 Fredi, Quispe: 810 Miguel Antonio: Ferreira, Freitas 862 Lluís: Coromina, Freixas 1063 Fritz, Alexander: 957 Frotin, Mickael: 1092 251, 295, Christian: Fruck, Fruit, John: 767 338 Benjamin: Fuchs, 1071 506, 556, 610, 303, Matthias: Fuessling, 1054 704, 714, 738, Fujii, Toshihiro: Fujita, Yutaka: 629 58 Satoshi:Fukami, 1167 629, Fukui, Yasuo: 420, 468, 572, 414, Masaki: Fukushima, 765, 344 Fulgione, Walter: 836 Fumiyoshi, Kajino: 954, 83, Funk, Stefan: 596, 660, 826, 841, 485 Amy: Furniss, 1186 578, 1175, Antonio: 306, Fusco, Luigi 277 Füssling, Matthias: 729 FüSSling, Matthias: 1254 Aion: Gabici, Stefano: Gabici, 1184 55, 321, 700, 973, 1105, 1319 58, Arno: Gadola, 943, 1010, 228, 345, Daniele: Gaggero, 1131, 1138 478 Sergey: Gaidash, 468 420, Gaior, Romain: 1360 1313, Thomas: Gaisser, Forza, Renato: 1198 1198 Forza, Renato: 342 Fösig, Carl - Christian:

1138 804, Ferrari, Alfredo: 294 Ferraro, Giovanni: 294 284, Ferrarotto, Fabio: 353 Ferraz, Victor: 274 Ferreira, Oscar: 127, 158 157, Ferreira, Stefan: 154, 1230 Luisa: Arruda, Velho Ferreira Da Gama Fitzsimmons, S. P.: 1264 S. P.: Fitzsimmons, 680 Fixelle, Joshua: 1032 354, 352, Henrike: Fleischhack, 726 Flinders, Andrew: 1319 Florin, Daniel: 1247 Vladimir: 377, 777, Florinski, 898 Erwin: Flückiger, Foehr, Christian: 1319 63 Andreas: Foerster, 127 Fontaine, Gerard: 1204 554, 810, Fonte, Paulo: 1335 1221, Valerio: Formato, 1025 860, Claudio: Fornaro, 46 Mattia: Fornasa, 356 Nicolao: Fornengo, 962 62, 635, Förster, Andreas: 874 556, 745, Fortson, Lucy: Ferri, Alessandro: 699 699 Ferri, Alessandro: 270 Ferrière, Katia: 274 Michel: 127, Fesquet, Anastasia: 630 Fialkov, 1335 609, 952, 1221, Emanuele: Fiandrini, 1088 945, 127, 931, Fiasson, Armand: 599 Fichtner, Horst: 360 Fidalgo, David: 346, 789 Fidecaro, Francesco: 756 752, Fields, Brian: 1383 Enectali: Figueroa-Feliciano, Sergey: 561 Filippov, 767 Finch, William: 176 Fink, David: 1224 Finke, J.: Chad: 630, 634 Finley, 556 61, 202, 236, 329, Fioretti, Valentina: 1342 147, Daniel: Fiorino, 1229 Ephraim: Fischbach, PoS(ICRC2015)1236 Gedalin, Michael: 1080 1080 Michael: Gedalin, 957 Yannick: Geerebaert, 767 Geier, Christine: 300 Stefan: GeiSSelsöder, 21 Kovaltsov: Gennady, 1154 Joseph: Gennaro, 1054 B: Genolini, 1098 1076, 942, Yoann: Genolini, 241 Gentile, Gianfranco: 1204 Kornakov: Georgy, 276 Lucie: Gerard, 412 Sardaana: Gerasimova, 1036 Alexey: Germanenko, 952 609, Massimo: 471, 496, Gervasi, 1154 Geske, Mathew: 455 Ghelfi, Alexandre: 286, 581 580, Alexandru: Gherghel-Lascu, 1374 734, 713, Ghia, Piera Luisa: 810 Ugo: Giaccari, 711 709, 110, 706, Gwenael: Giacinti, 556 Gianotti, Fulvio: 506, 1013 Giavitto, Gianluca: 729, 957 127, 274, Berrie: Giebels, 1039 601, 967, Gieseler, Jan: 946 Giesen, Gaëlle: 294 Giglietto, Nicola: 1322 Gil, Agnieszka: 586, 215 212, Giller, Maria: 230 Giniyatova, Sholpan: 505 Giommi, Paolo: 699 Francesco: 294, Giordano, 294 Giuseppe: Giraudo, 849 Tristano: Girolamo, 912 Glaser, Christian: 288 Dorit: Glawion, 1211 Gleixner, Andreas: 1242 Glenn, Mason: 274 Jean-François: Glicenstein, 729 47, 127, 313, Jean-Francois: Glicenstein, 663 657, Noemie: Globus, 643 Ivan: Gnesi, Godinovic´, Nikola: 346 88, 266 Goka, Tateo:

1013 1011, 928, 303, Michael: Gajdus, 1120 Galata, Salvatore: Daniel: Galindo, 360 Gallmeyer, Kristina: 767 767 Kristina: Gallmeyer, 981 Gallo, Valentina: 236 Stefano: Gallozzi, 1062 Arkadiy: Galper, 613 Arkady: Galper, 1039 1026, 898, Galsdorf, Dennis: 870 Ganeva, M.: 1182 1128, Urs: Ganse, 1079 1042, 908, 941, 985, Gao, Bo: 894, 936 Gao, Qi: 842, 984 168, Gao, Shanshan: 750 Sebastián: Garavano, 10 Garawi, Mohammed: Garcia, R.: 120 911 Garcia, Rocio: 308 García, Rafael: 382 357, Daniel: García Fernández, 1257 1239, 813, Rocío: García Gínez, 1309 E: García-Ortega, 979 E.: García-Ortega, 783 318, Garczarczyk, Markus: 294 Fabio: Gargano, Garrecht, Frank:1319 360 Daniel: Garrido-Terrats, Garrigoux, 313 Tania: 1204 A.: 554, Juan Garzon, 127 David: Gascon, 1309 E: Gascón, Gascón, E.: 979 46 Gaskins, Jennifer: 1236 Gasparrini, Dario: 666 627, Gast, Henning: 1072 549, Gaté, Florian: 1058 783, 63, 181, 360, Gaug, Markus: 775 Gauvin, Neal: Ken: 533 531, Gayley, 1131 1124, 825, 1102, 1110, Iris: Gebauer, Galindo Téllez, Aline: 1191 Aline: Téllez, Galindo Vladimir: Galkin, 784 1334 S: John Gallagher, PoS(ICRC2015)1236

ukasz: 370 ł Gulisano, Adriana M.: 815 Gulisano, Adriana M.: 862 629, Gunji, Shuichi: 777 Guo, Xiaocheng: 974 842, 936, Guo, Yiqing: 138, 248, 250, 1106 Gupta, S.K: 160, 163, 1084, Gupta, S.K.: 513 39 Gupta, Sunil: 36, 45 Gupta, Sunil K: 44, 38 Gupta, Sunil K.: 37, German: 500 Gusev, 784 Guseva, Zoya: 1038 Gushchina, R.: 864, 1357 Gushchina, Raisa: 1006, 570, 577, 585, 590, Guzman, Alejandro: 611, Green, David Michael: 1321 Michael: David Green, 1397 Tim: Greenshaw, 954 John: Timothy Greenshaw, 1019 Isabelle: Grenier, 676 Griffin, Sean: 824 684, Griffiths, Scott: 412 409, 411, Vladislav: Grigoryev, 713 F.: Grillo, Aurelio 606 Emanuele: Grimaldo, 79 Catia: Grimani, 658 Andrei: Grinyuk, 1212 Dmitry: 40, 902, 997, Gromushkin, Gros, Philippe: 957 1240 Grove, J. Eric: Grudnik, Mira:Grudzin´ska, 900 176 Felix: Grundner, 831 630, Gu, Junhua: 1198 Nunzio: Guardone, 1331 860, 1155, 393, 810, Fausto: Guarino, 824, 1101 Victor: Guarino, 308 Daniel: Guberman, 203 Daniel: Gubermann, 1054 Guglielmi, Laurent: 1252 Guillemot, Lucas: Guiot, Benjamin: 803 Graziani, Maura: 609, 952, 1221, 1335 1335 1221, 952, 609, Maura: Graziani, 681 Victor: Grebenyuk, 561 Viktor: Grebenyuk,

Gomez

Gomez Gomez

1075, 1165, 1364 1364 1075, 1165,

699 Gola, Alberto: 965 Paolo: Goldoni, 392 Golge, Serkan: 412 Petr: 409, 411, Gololobov, 734 193, Golup, Geraldina: Andres: Gomez, 1204 Tato, Andres: 554 Andres: Tato, 46 Arturo: German Gomez Vargas, Grandi, Davide: 471, 609, 952 952 471, 609, Davide: Grandi, 556 61, Paola: Grandi, 1010 345, Dario: Grasso, Gozzini, Sara Rebecca: 1167 Rebecca: Gozzini, Sara 588, Rodrigo: Gracia, 592 Ricardo: Diaz, Graciani 556 Gonzalez-Alvarado, Concha: 1309 1309 Concha: Gonzalez-Alvarado, 81 Nat: Gopalswamy, 267 175, Gora, Dariusz: Gorbunov, Nikolai: 681 Gorbunov, Nikolay: 561 431 Chris: Gordon, 1217 841, 826, 828, Peter: 660, 819, Gorham, 1016, Philippe: 625, 682, 971, Gorodetzky, 767 Jonathan: Gossman, 859 Goto, Takashi: 1324 Gottschall, Daniel: 962, 1299, 936 630, 831, 842, Gou, Quanbu: Corinne: 942, 1098 Goy, González, Magdalena: Magdalena: González, 787 1196 Emma: Hernandez, Gonzalez Xavier: 813, Luis Méndez, Gonzaléz 1239, 1257 Adiv: Muñoz, Gonzalez 309 Gonzalez, Luis Xavier: Luis Gonzalez, 88 120 L. X.: González, Xavier: Luis González, 911 Gómez-Herrero, Raúl: 91, 171 171 Raúl: 91, Gómez-Herrero, German: 368 Gomez-Vargas, 1230 Patricia: 810, Goncalves, 919, 1145 Gong, Ke: 126 Peter: Gonthier, 806 363, 508, Javier: Gonzalez, Herrero, Raul: 983 Raul: Herrero, PoS(ICRC2015)1236

1253, 1388 1253, 1388 1044, 1051 Hervet, Olivier: 742, Hervet, Olivier: 780 258 Hewitt, J. W.: 798 Hewitt, Jack: 423 Hewitt, John: 213 Kinya: Hibino, 1167 Sano: Hidetoshi, 1257 1239, 120, 911, Rikiya: Hikimochi, 1192 Dorothee: Hildebrand, Hill, Brian: 843 327 Hiller, Roman: 631 Hillert, Andreas: 1020 729, 954, 556, 465, Hinton, Jim: 209, 950 Katsuki: Hiraide, 1012 Sagawa: Hiroyuki, 767 Hirsch, David: 521 Hnatyk, Bohdan: H-Carretero, J.: 1292, 1309 1309 J.: 1292, H-Carretero, 747 He, Haoning: 904 285, 901, 253, He, Huihai: 960 955, 622, 518, Thomas: Hebbeker, 342 Hebecker, Dustin: 975, 91, 171, Bernd: 601, 898, 967, Heber, 1051, 1047, 1044, 1039, 983, 1026, 1119, 802 Dieter: Heck, 1063 David: Heereman, 377 Jacob: Heerikhuisen, 1186 491, Heid, Thomas: 1186 Aart: Heijboer, 702 Heikkila, Bryant: 520 Heil, Melanie: 977 Falcke: Heino, 763 Sebastian: Heinz, 78 Heller, M.: 249 Matthieu: 65, Heller, 127 François: Henault, Herbst, Konstantin: 967, 983, 1026, 1039, 1319 German: Hermann, 176 127, Hermel, Richard: 608 Diego: Herranz, 308 Javier: Herrera, 779 Edward: Herve, Alexander

632, 639, 682 682 632, 639,

Gvozdevsky, B: 1038 1038 B: Gvozdevsky, 1241 Boris: 1036, Gvozdevsky, 741 Christian: Haack, 176 Werner: Haberer, 1335 1221, Marion Assia: Alaoui, Habiby 1057 295, Daniela: Hadasch, 176 Alexander: Hahn, 600, 646, 695, 882, Joachim: Hahn, 1107, 1178 1264 D. J.: Hahne, 1335 Sadakazu: 51, 1221, Haino, 775 Wojtek: Hajdas, 483 349, Steffen: Hallmann, 829 Zigfried: 216, Hampel-Arias, 1314 T.: Hams, 1378 1287, 817, 1264, Thomas: Hams, 1167 58, 629, Yoshitaka: Hanabata, Ryan: 767 Hanley, 906 572, William: Hanlon, 1180 Kael: 194, Hanson, 307 Hao, Xinjun: 1019 Harding, Alice: 126, 364, 1341 1296, 238, 402, Harding, J. Patrick:

Hari Haran, Balakrishnan: 45 45 Hari Haran, Balakrishnan: 39 B.: 36, Hariharan, 934 Olga: Harlova, 1041 Giles: Harrison, 957 Satoshi: Hashimoto, 469 465, 209, Tarek: Hassan, 841 660, 826, Carsten: Hast, 862 Kenichiro: Hatanaka, 682, 338, 446, 503, 661, Andreas: Haungs, 881, 897 371 Dominik: Haunss, 1345 Hayashi, Motoki: Hayashi,37, Y.: 38 Hayashi,44, Yohio: 45 513, 163, 36, 39, 160, 1084, Yoshio: Hayashi, 1106 629 59, 242, 265, 46, 58, Masaaki: Hayashida, 1045 Hayato, Yoshinari: 1395 292, 1321, Hays, Elizabeth: PoS(ICRC2015)1236

1101 130, 469, 556, 684, 130, 469, 824, Illa Laguna, Jose María: Jose María: 862 Illa Laguna, Mamadsho: 619 Ilolov, 419 Inome, Yuusuke: 1318 242, 556, 629, 783, 61, Inoue, Susumu: 629 Inoue, Tsuyoshi: 316, 527 Iocco, Fabio: 629 Ioka, Kunihito: 1113 Iong, Chan-Hin: 1335 699, 1221, Ionica, Maria: 294 284, Iori, Maurizio: 750 Iozzo, Roque: 71 Ireland, David: 1237 Irwin, Judith: 1390 474, 420, 463, 468, Aya: Ishihara, Iskra, K.: 1301 1249 1055, 1059, Iskra, Krzysztof: Israel, M.: 814 1314 Israel, M. H.: 1264, 841 826, 394, 660, 817, Israel, Martin: Humble, John E.: 117, 131, 263, 434 434 117, 131, 263, E.: John Humble, Brian: Humensky, 1214 Humensky, T.Brian: 998 Lars: Hunger, 767 Hunt, Patrick: A.: 120 Hurtado, 911 Alejandro: Hurtado, 1257 813, 1239, Alejandro: Pizano, Hurtado 68 67, 56, Mohammad: Hussein, 755 597, Hütten, Moritz: 915 Kalle: Huttunen-Heikinmaa, 841 826, 660, Rachel: Hyneman, 284 M: Iacovacci, 993 294, 989, Michele: Iacovacci, 1331 424, Iarlori, Marco: 105 Askar: Ibragimov, 951 Koichi: Ichimura, 360 Idec, Wojciech: 78 Idzkowski, B.: 562 559, Ihongo, Grace: 468, 765, Ikeda, Daisuke: 414, 419, 420, 906, 910 1045 862, 911, Ikeno, Masahiro:

749 748, Jannik: Hofestädt, 127 47, Dirk: Hoffmann, 567 Hoffmann, Ruth: 1071 Petter: Hofverberg, 1071 277, 696, Clemens: Hoischen, 303 Tim: Holch, 1015, 938, 1013, Markus: 565, 597, Holler, 1046 Bin: Hong, 96 1126 Eugene: Hong, 1140 Daniel: Hooper, 957 127, Horan, Deirdre: 492, 754, 766, 920, 923, Jörg: Hörandel, 977, 1373 1294, 1085, 992, 1067, 62 R.: Jörg Hörandel, Houles, Julien: 47, 127 127 47, Julien: Houles, 1229 Hovsepyan, Gagik: 346 Dario: Hrupec, Hsu, S.-Y.: 1100 974 936, 842, 250, 630, 831, Hu, Hongbo: 1233 Hu, Xiaobin: 256 15, 248, Daihui: Huang, 760 Guangshun: Huang, 1100 J.-J.: Huang, 1201, 1225, 1181, 1189, Jing: Huang, 1233, 1235 1113 M.H.: 1100, Huang, 470 Xingtao: Huang, 661 Thomas: Huber, Tim: Huege, 651, 531, 533, 645, 660, 826, 841, 920, 923 737 Petra: 379, Huentemeyer, 210 Huet, Jean-Michel: 772 Hughes, Gareth: 1151 Christophe: Hugon, 1341 323, 379, 737, 739, Hui, C. Michelle: 238 Hui, Michelle: 429 Huie, Douglass: Horiuchi, Kazuho: 865 865 Kazuho: Horiuchi, 1047 Malte: Hörlöck, 940 58, Horns, Dieter: 595 Horst, Fichtner: 1170 Wei-Shu: Hou, George PoS(ICRC2015)1236

Jui, Charles: 1375 1375 Jui, Charles: 1016, 860, 971, 639, Aera: 625, 632, Jung, 1075 1319 Ira: 343, 763, 1268, Jung-Richardt, 1101 824, Kaaret, Philip: 684 Kaaret, Phillip: 709 403, 110, Michael: Kachelriess, 903 288, Kadler, Matthias: 1215 H. S.: Kadowaki, Luís 620 Kafexhiu, Ervin: 146, 856 58, Kagaya, Mika: 82 80, 81, Kahler, Stephen: 71 Kaiser, Ralf: 1358 88, Kakimoto, Fumio: Oleg: 709 299, Kalashev, 1319 Kalekin, Oleg: 439 437, Kalinin, Mikhail: 1319 Kalkuhl, Christoph: Nikolai:Kalmykov, 1333 Nikita: 902, 1061 Kamlev, 1226 1223, Kampert, Karl-Heinz: 441 Kamyan, Nattapong: Josefa, Becerra Gonzalez: 410 Gonzalez: Becerra Josefa, 102 Eliasbeth: Jourdain, 982 978, Jouvin, Léa: 1188 1183, Jouvin, Lea: 1008 Joven, E: 979 Joven, E.: 1309 Joven, Enrique: 1024 Jóven, E.: 271 Abel, Barrio: Juan Jóhannesson, Guðlaugur: 398, 1207 1207 398, Guðlaugur: Jóhannesson, 1012 Matthews: John, 1054 J: Johnsen, 372 Caitlin: Johnson, 628 Rashmi: Johnson, 995 Simon: Johnston, 1052 Caitlin: Johson, 69 David: Jones, 137 William: Jones, 935 Martijn: Jongen, 1327 Truyenque: Jose, Mariela: Josebachuili, 1117

1004, 1018 1004, 1018 749, 903 749, 903

Jan, Blecki: 1283 1283 Jan, Blecki: 900 742, Mateusz: Janiak, 669 Javaid, Amir: 1240 127, Pierre: Jean, 824 Peter: Jenke, J.A.: 1349 Jeon, 1118 Helen: Jermak, 807 Jero, Kyle: 598, 425 15, 96, 248, 256, Jia, Huanyu: Jitsuk, Taweesak: 648 Ivascenko, Alex: 1128, 1182 1182 Alex: 1128, Ivascenko, 991 Iwaki, Satoru: 682 590, 585, 570, 577, Elias: Iwotschkin, 297 296, 291, Iyono, Atsushi: 58 Christopher: Jablonski, 1187 Agnieszka: 547, 563, Jacholkowska, 1361 Agnieszka: Jacholkowski, 610 236, 556, Jean: Jacquemier, 371 Joerg: Jaeckel, 1207 Jaffe, Tess: 36, 39 P.: Jagadeesan, 45 P: Jagdeesan, 1084, 513, Jain, Atul: 36, 39, 44, 45, 160, 163, 1106 673 Buckley: James, 491, 531, Clancy: 533, 645, 703, James, 748, 1287 H.: Israel, Martin 1106 1084, 163, 513, 160, Ito, Nobuo: 304 Ito, Yoshitaka: 59 Itoh, Ryosuke: 1257 120, 911, 1239, Yoshitaka: Itow, 1163 524, Iuppa, Roberto: 462 139, 140, Anatoly: Ivanov, 414, 765, 781, 847, 858, Dmitri: Ivanov, 877, Joarder, Partha S.: 526 Partha Joarder, 841 Keith: 660, 826, Jobe, 1007 Jean-Claude: Jodogne, 1311 209, 465, 1052, 1136, Tobias: Jogler, 429 Eser: Johannes, 401, 403, 691, Gudlaugur: Johannesson, 798, 884 PoS(ICRC2015)1236

: 370 ł aczyn´ski, Maciej:aczyn´ski, 370 ł Klassen, A.: 818 Klassen, A.: 818 91, 118, 171, 601, Klassen, Andreas: 983, 1115 1253 1021, 194, Klein, Karl-Ludwig: 1264 Klemic, J.: 729 Stefan: 635, Klepser, 1171 560, 681, 939, 1165, Pavel: Klimov, 969 Klotz, Alain: 127 Juergen: Knodlseder, 556 Jurgen: Knodlseder, 665 236, Jürgen: Knödlseder, 444 254, 257, 262, Stanislav: Knurenko, 864Kobelev, P.: 1347 1344, 1281, Kobylinski, Zbigniew: Oleh: 72, 521 Kobzar, Leon: 118 Kocharov, Nikolay:Kochelev, 211 Rafa Kocierz, 236 Kocot, Johanna: 769 Kiyokazu: 88, 266, Koga, 784 Kogan, Michael: 1329 Köhli, Markus: 629 Kohri, Kazunori: K Khangulyan, Dmitry: 647 647 Dmitry: Khangulyan, 1035 982, 236, 665, 978, Khelifi, Bruno: 1062 Kheymits, Maxim: 1149 1144, Khiali, Behrouz: Semen: 972, 1037, 683, 902, Khokhlov, 1061, 1209 1209 Vasiliy: Khomyakov, 683, 902, 1037 Vasily: Khomyakov, Boris: 1165 Khrenov, 441 Thiranee: Khumlumlert, 1004 572, Kido, Eiji: 299, 414, 1101 731, 824, 844, Kieda, David: Matthieu: 1361 Kieffer, 1319 Kihm, Thomas: 1209 683, 902, 1037, 1061, Kindin, Victor: 938 King, Johannes: 504 267, Thomas: Kintscher, 991 Kishimoto, Tetsuro: 1262 606, 1243, Ralf: Kissmann,

568, 996 568, 996 : 773 ł 1084, 1106 1084, 1106 Karczmarczyk, Jacek: 1364 1364 Jacek: Karczmarczyk, 573 569, Karelin, Alexander: 916 Karg, Timo: 342, 127 Karkar, Sonia: Dmitry: 561 Karmanov, 1337 1052, Karn, Peter: 736, 920 T: Karskens, 923 492, T.: Karskens, 1294 977, 1067, Tijs: Karskens, 992 Tjis: Karskens, 1115 1080, Kartavykh, Yulia: 661 Michael: Karus, Kasperek, Jerzy: 1319

159 Mária: Kancírová, 784 Evgeniya: Kanevskaya, 881 788, 338, 785, Kang, Donghwa: 743 334, Alexander: Kappes, Payel: 844 Kar, Micha Karczewski, Keivani, Azadeh: 680, 771 Azadeh: 680, 771 Keivani, Pascale: 1040 Keller, 1097 Kemp, Ernesto: 1139 Kempf, Yan: 1324 Eckhard: Kendziorra, 1087 Kenji, Yoshida: 1358 Nakayama: Kesuke, Kawakami, Sburo: 45 45 Sburo: Kawakami, Kawashima,83 Takanori: 1004 Kawata, Kazumasa: 112, 414, 572, 765, Karoly:Kecskemety, Kastendieck, Max Anton: 933 Anton: Max Kastendieck, 1365 Marcin: Kasztelan, 862 629, 856, 58, 265, Katagiri, Hideaki: 1201, 1225 Katayose, Y.: 244 Katayose, Yusaku: Igor: 1162, 1328 Katkov, 1257 911, Kato, Chihiro: 117, 120, 131, 1136 Katsuta, Junichiro: 1358 Katsuya, Ryoichi: 911 Tetsuya: Kawabata, 38 S.: 37, Kawakami, 44, 160, 163, Saburo: 36, 39, Kawakami, 513, PoS(ICRC2015)1236

ogen: 409, 412 412 ogen: 409, ogen: 895 ogen: 895 Prokopii: 412 412 Prokopii: Kovaltsov, Gennady: 90, 92, 103 90, 92, Gennady: Kovaltsov, 1209 902, 918, 683, Ekaterina: Kovylyaeva, 504 371, Marek: 267, 342, Kowalski, 1239 131, 911, 120, 117, Kozai, Masayoshi: 1168 Kozhin, Anatoly: 1153 Vladimir: Kozhnin, Lev: 1229 Kozliner, Olga: 1288 Kozyukova, 1108 Uwe: Kraemer, 1089 437, 439, Mikhail: 198, Krainev, 1167 700, Julian: Krause, 597 Maria: Krause, 903 KrauSS, Felicia: 288, 77 76, Krayzel, Fabien: 824 Frank: 395, Krennrich, 729 Axel: Kretzschmann, GermKrimsky, 184 Krings, Kai: Krivoshapkin, 837 57, John: Krizmanic, Kulikovskiy, Vladimir:Kulikovskiy, 1151 Rahul: 152, 155 Kumar, Rajiv: 1160 715, Kumar, Sajan: 542 Kumar, 1160 Santosh: 445, 576, Kumar, 1312 Maike: Kunnas, 361 125, Kunnen, Jan: Krizmanic, John F.: 1287 1287 F.: John Krizmanic, 1039 551, 441, 546, Helena: Kruger, 1209 902, 1037, Veronika: Kruglikova, 489 478, Olga: Kryakunova, GermKrymsky, 930 Sergey: Kryukov, 404 113, Leonid: Ksenofontov, 1347 Kubicki, Marek: 1057 991, 629, 862, Kubo, Hidetoshi: 475 Kubo, Yuki: Kholiknazar: 619 Kuchakshoev, 1283 159, 724, 914, Kudela, Karel: Kudryashov, Ilya: 561 Kueger, H.: 101 Kühl, Patrick: 1119 1044, 1047, 601, 975, 983, 176 Gasper: Mezek, Kukec

703, 1219 703, 1219 audio: 721, 730, 741 741 audio: 721, 730, andro: 1122 andro: 1122 1084, 1106, 1239, 1257 1257 1239, 1084, 1106, 1209 1199, 1061, 1168,

1257 120, 911, 1239, Tatsumi: Koi, 1158 Koirala, Ramesh: 39 Kojima, H.: 36, 120, 160, 163, 513, Kojima, Hiroshi: 911, Rostislav: Kokoulin, 918, 683, 902, 972, 1037, Koldashov, Sergei:552 613 584, Sergey: 525, Koldashov, Sergey: 793 Koldobskiy, 775 Kole, Merlin: 38 37, Arunbabu: Paul, Kollamparambil 1053 76, 77, Komin, Nukri: Kompaniets, Konstantin: 1209 1199, 1193, 1168, 1037, 1061, 683, 902, 991 Komura, Shotaro: 775 Kong, M.N.: 859 Konishi, Shogo: 1057 59, 862, Konno, Yusuke: Alena: 1193 Konovalova, 1335 1221, Konstantin, Kanishchev: 1310 Kooijman, Paul: 342 Köpke, Lutz: 1119 126, 566, Kopp, Andreas: Kopper, Cl Kopper, S Georgy: 554 Kornakov, Natalia: 1229 Korotkova, Samo: 176 Korpar, 514 Michael: Korsmeier, 938 610, 647, 236, 329, 556, Karl: Kosack, 127 Kossakowski, Roman: 729 Kossatz, Marko: 502 Kostunin, Dmitriy: 996 Kota, Jozsef: 198, 957 Kotaka, Takuya: 1150 Konstantin: Kotelnikov, 1150 Sergey: Kotelnikov, 1272 630, Kotera, Kumiko: AntoineKouchner, David: 588, 575 Kounine, Andrei: Igor: 561 Kovalev, Genady: 74 Kovaltsov, PoS(ICRC2015)1236

1062 1062 1349 1349 .Y.: 1389 1389 Lenain, Jean-Philippe: 127, 780, 933, 1123 1123 780, 933, 127, Jean-Philippe: Lenain, Dirk: Lennarz, 237 1167 Di Venere: Leonardo, Leonov, Alexey: 1208 Mariola: Lesiak-Bzdak, 818 Leske, R.: 814, 1242 821, 373, 394, 799, Leske, Richard: 204 Lessio, Luigi: 800 Martin: Leuermann, 127 Alexis: Leveque, Li, Cong: 253 1222 Li, Gang: 558, 1079 1042, 908, 941, 985, Li, Huicai: 894, Li, Lu: 775 253 Li, Xiurong: 1024 J.: 979, 1008, Licandro, 1309 1283, Javier: Licandro, Lien, Amy: 752 818Liewer, P.: Oleg: 1061 Likiy, Le Roux, Jakobus: 1247 1247 Jakobus: Le Roux, 599 Kobus: Le Roux, Suu, Auguste: 969 Le Van Leahy, Patrick: 1207 353 Leão, Milton: 1054 Lebrun, Paul: 549 Lecacheux, Alain: 775 Catherine: Lechanoine-Leluc, Lee, H 1349 Lee, Jik: 629 Lee, Shui-Hang: 1035 Julien: 978, Lefaucheur, 938 46, 279, 729, Valentin: Lefranc, 215 Remigiusz: Legumina, 729 Leich, Holger: 353 Marcelo: De Oliveira, Leigui 1240 D.: Mark Leising, 1188 978, 1183, Anne: Lemiere, 982 Anne: Lemière, Lemoine-Goumard, Marianne: 423, 1136, Le, Guiming: 206 206 Le, Guiming: 556 Thierry: 127, 506, Le Flour,

aw: 370 aw: 370 ł 931, 1088 931, 1088

1131 1124, 825, Michael: Kunz, Simon 325 Ekaterina: Kupriyanova, Kyaw, Thu Maung: 500 Kyaw, 952 471, 609, Giuseppe: La Vacca, 814 A.: Labrador, 1314 1264, A. Labrador, W.: 821 817, 799, Allan: 373, Labrador, 966 Cyril: 588, Lachaud, 1299 1252, Laffon, Helene: 1319 671, 1265, Robert: Lahmann, 1228 915, 566, Laitinen, Timo: 997 Alexander: Lakhonin, 702 Lal, Nand: 370 Lalik, Krzysztof: 1179 Lalik, Kzrysztof: 841 826, Lam, Joe: 660, Giovanni: 76, 77, 127, 236, Lamanna, 556, 954 Jon: Lapington, 210 Philippe: Laporte, 722 716, Lara, Alejandro: 1115 Lario, David: Larsson, S.: 1224 1341 238, 239, 739, Robert: Lauer, 518 Markus: Lauscher, Claudia: 329 Lavalley, 394 Lave, Kelly: 656 Alex: Lazarian, 996 Lazutin, Leonid: Kurahashi Neilson, Naoko: 730 Naoko: Neilson, Kurahashi Kuras, Przemys 991 Shunsuke: Kurosawa, 370 Piotr: Kurowski, 1204 Teresa: Kurtukian, 747 Alexander: Kusenko, 629 242, Junko: Kushida, 1061 Vitaly: Kutovoy, 468 417, 420, 131, 117, Takao: Kuwabara, 660 Kyle: Kuwantani, 841 Kuwatani, Kyle: 826, Leonid: 1153 922, Kuzmichev, 860 Evgeny: 429, 432, Kuznetsov, 211 Tatyana: Kvochkina, PoS(ICRC2015)1236

anessa: 656 940 940 1179 1179 Ma, Lingling: 416, 833, 838, 849 416, 833, 838, Ma, Lingling: 827 Ma, Xinhua: 40, 416, 470, 63 Concetta: Maria Maccarone, 710 Jane: 708, Macgibbon, 370 Mach, Emil: 431 Oscar: Macias, 1302 1283, Simon: Mackovjak, 485 Greg: Madejski, 434 Madlee, Suttiwat: 428, 1394 501, 510, 705, Paolo: Maestro, 241 Maggi, Giuliano: Lopez-Barquero, V Lopez-Barquero, 292, 121, 289, 290, Ruben: Lopez-Coto, 322, 346 Lorca, Alejandro: 1054 R: Lorek, 641 Lorentz, Matthias: 499 Losekamm, Martin: 1236 Lott, Benoit: 622 Daniel: Louis, 274 47, 127, Frederic: Louis, 957 Marc: Louzir, 1053 Lu, Chia-Chun: Lu, Lu: 474 1267 Lu, Yuxi: 1271 Bayarto: 1258, Lubsandorzhiev, 505 236, Lucarelli, Fabrizio: 1017 Pawel: Luczak, 729 Hartmut: Lüdecke, 361 Jan: Luenemann, 772 Luis, Reyes: 1332 Paul: 1330, Jon Lundquist, 125 Jan: Lünemann, Luo, Jan: 125 Uo", Xi: 183 Luo, Xi: 192 930 Vadim: Lutsenko, 874 Lutz, Robyn: 810 Luz, Ricardo: Luzio, Vitor: 353 Etienne: 236, 249, 329, 506, 556, Lyard, 610, Lopez Oramas, Alicia: Alicia: Oramas, Lopez 295

Herman: 353 Lima Jr, López Agüera, Angeles: 1204 1204 Angeles: Agüera, López 1309 1283, Laura: Campano, Lopez 719 330, Moya, Marcos: López Lopez Agüera, Angeles: 554 Angeles: Agüera, Lopez Longo Proper, Megan: 402 402 Megan: Proper, Longo 1138 804, Francesco: Loparco, 1204 554, 810, Luis: Lopes, 1257 926, 1239, 88, 120, 911, Diego: Lopez, 608 322, 360, Marcos: Lopez, 979, Laura: López, 1024 Lindsey Clark, Miles: 1040 Miles: Clark, Lindsey 1264, 1314 Link, J. T.: 817 Link, Jason: 659, 1287 Link, Jason T.: 693 Link, Katrin: 651, 710 708, James Thomas: Linnemann, 335 Lipari, Paolo: 936 842, 138, Liu, Cheng: 760 Liu, Dong: 775 Liu, J.T.: Liu, Jia: 896 936 842, 138, Liu, Maoyuan: 1318 Liu, Ruo-Yu: 984 451, Liu, Shubin: 307, 1100, 1113 Liu, T.C.: 826 660, Liu, Tsung-Che: 841 Liu, Tsungche: Liu, X.: 775 470 Liu, Ye: 1195 1194, Mike: Lockwood, Logachev, Valerii: 1089 996Logachev, Yuri: 568Logachev, Yury: 274 Loiseau, Dominique: 211 Albert: Loktionov, 783 556, 236, 509, Saverio: Lombardi, 783 723, 728, 292, 294, Francesco: Longo, Limyansky, Brent: 1275 1275 Brent: Limyansky, 556 Rico: 506, Lindemann, 834, 1140 Tim: Linden, 1220 1118, 410, 927, 965, Lindfors, Elina: Axel: Lindner, 371 PoS(ICRC2015)1236

Marujo Da Silva, Fabio: 810 Fabio: Da Silva, Marujo 695 605, 202, 329, 603, Marx, Ramin: 1012 Fukushima: Masaki, 336 Julien: Masbou, 468 420, Mase, Keiichi: 815 Jimmy J.: 408, Masías-Meza, G.: 818 Mason, 1222 558, 821, Glenn: Mason, 236 Pietro: Massimino, 1024 Mastafa, M.: 733 Apostolos: Mastichiadis, 284 Mastroianni, S: 993 989, Stefano: 294, Mastroianni, 865 Kimiaki: Masuda, 769 Satoshi: 88, 266, Masuda, 862 Shu: Masuda, Rosen: 899 Matev, 371 Mathes, Hermann-Josef: Marsh, Michael S.: 566 S.: Marsh, Michael 1228 Marsh, Micheal: 1319 A: Marszalek, 78 Marszalek, A.: 442 Kai: Martens, 289 Martin, Jonatan: 940 Martin, Jonathan: 1072 549, 645, Martin, Lilian: 1090 Martin, Schmitz: Martin, 1309 Yolanda: 1008, 979, 1024 Martín, Y.: 831 630, Olivier: Martineau, 862 127, Gustavo: Martinez, 1289 Oscar: 1213, Martinez, 1340 Victor: Martin-Lozano, 1054 Marton, M: 1248 621, 846, Matteo: Martucci, Mariotti, Mosè: 176, 204, 294 294 176, 204, Mariotti, Mosè: 556 Martino: Marisaldi, 556 Markoff, Sera: 61, 1309 1283, Maroto, Oscar: 1047 Johannes: Marquardt, 1230 Arlindo: Marques, 705 Pier Marrocchesi, 510, Simone: 1031 1029, Marsella, Giovanni:

1136, 1299 1136, 1299

66 Maggio, Camill: 199 Maggio, Camilla: 10 9, Abdullrahman: Maghrabi, 71 Mahon, David: 755 465, 556, 209, 236, 447, Maier, Gernot: 176 Maier, Ronald: 882 Pratik: 181, 284, Majumdar, 81 Makela, Pertti: 1089 1041, Vladimir: 230, Makhmutov, 556 Malaguti, Giuseppe: 1323 Vitaly: Malakhov, 1253 Olga: Malandraki, Dmitry: 472 Malyshev, 1319 Aaron: Manalaysay, 176 Manea, Christian: 1198 Manfrin, Massimiliano: 927 308, 541, Marina: Manganaro, Marandon, Vncent: 982 982 Vncent: Marandon, 1286 521, Volodymyr: Marchenko, 775 Radoslaw: Marcinkowski, 836 Marco, Casolino: 268, 270, Alexandre: 76, 77, Marcowith, 399, 1105 961 524, Maria: Mari, Stefano 1280 1197, Christian: Mariaud, 1072 549, Marin, Vincent: 1010 Antonio: 345, Marinelli, 710 Samuel: 708, Marinelli, 1230 Pedro: Marinho, Mantsch, Paul: 1054 1054 Mantsch, Paul: 767 Mantz, Mike: 154 Manuel, Rex: 630 Mao, Yi: 324 Ge: Maomao, 789 Mapelli, Michela: 498, 627, 666, 945, 1107, Vincent: Marandon, Mantilla Suarez, Cristina Ana: 1213 Mantilla Suarez, Cristina Ana: Manganote, Edmilson J. T.: 387 J. T.: Edmilson Manganote, 638 428, 434, 441, Pierre-Simon: Mangeard, 903 Karl: 288, Mannheim, 1061 902, 683, Giampaolo: Mannocchi, 1276 Konstantinos: Manolopoulos, PoS(ICRC2015)1236

awomir: 1055, 1059 1059 1055, awomir: ł owski, Jerzy: 370, 674, 773 owski, Jerzy: 370, 674, ł 1222, 1242 1222, 1242 Mignone, Marco: Mignone, 1198 Michnowski, Stanislaw: 1347 1347 Stanislaw: Michnowski, 960 518, 955, Lukas: Middendorf, S Miernicki, Mikhail I., Panashyuk: 836 Mikhail I., Panashyuk: 1323 994, Vladimir: 207, Mikhailov, 843 828, Miki, Christian: 499 Milde, Michael: 957 Yasuhito: Minamiyama, 1103 Minaya, Ignacio: 88 P: Miranda, 1146 Padro: Miranda, 1336 176, Mirzoyan, Razmik: 74 19, 21, 17, 18, Alexander: Mishev, Kumar: Mishra, Rajesh 454 1193 Yuliya: Mishutina, 1071 498, Mitchell, Alison: 1264, 1314 Mitchell, J. W.: Mitchell, John: 817 1287 W.: Mitchell, John 304 Mitsuka, Gaku: 638 Mitthumsiri, Warit: Menn, Wolfgang: 376, 378 Menn, Wolfgang: 1248 Matteo: Merge, 846 Matteo: Mergé, 1024 A.: 979,Merino, 1309 1283, Andrés: 1008, Merino, 1229 561, Merkin, Mikhail: Thomas: Mernik, 639, 611, 570, 577, 585, 590, 682 472 219, Mertsch, Philipp: 1110 1102, Maria: Merx, Carmen 1309 Jose: Meseguer, 1293 1180, Meures, Thomas: 1294 531, 533, Mevius, Maaijke: 814 Mewaldt, R.: 1314 R. A.: 1264, Mewaldt, 799, 817, Richard: 373, 394, Mewaldt, 821, 558 Mewladt, Richard: Manuel: 940 Meyer, 637 Tino: Michael, Micha

1239, 1257, 1300, 1358 1358 1300, 1239, 1257,

969 Aurore: Mathieu, 513, 911, 88, 120, 926, Yutaka: Matsubara, 769 266, 88, Haruhisa: Matsumoto, 297 291, 296, Hiroki: Matsumoto, 991 Yoshihiro: Matsuoka, 1106 1084, 160, 163, 513, Toshio: Matsuyama, Matsuzaki, Hiroyuki: 865 Matthews, John N.: 1054 N.: Matthews, John Eugeny: 1241 Maurchev, 455 Alain: 283, 286, 293, David Maurin, 1088 Gilles: 76, 77, 931, 933, Maurin, 810 Daniela: Maurizio, 1023 Helen: Mavromichalaki, 1053 506, 635, 646, 647, Mayer, Michael: 665 Mayer, Michel: 1190 Mayo, Rafael: 176, 290, 309, 541, 579, Mazin, Daniel: 862, 927, 940 1054 810, Peter: Mazur, 1138 804, Mazziotta, Mario Nicola: 558 David: Mccomas, 260 53, Ken: Mccracken, 1078 Julie: Mcenery, 390 Mcnally, Frank: 1052 372, 707, 824, Kevin: Meagher, 682 585, 577, 570, Gustavo: Tanco, Medina 751 Carlos: Medina-Hernandez, 1337 Matthew: Meehan, 176 Mehrez, Fatima: 518 MeiSSner, Rebecca: 506 David: Melkumyan, Evgeny: 1193 Melnikov, 1117 750, 1083, Melo, Diego: 810 Luis: Mendes, 1362 Rafael: Mendonça, 810 Rogerio: Menezes, Menicucci,1230 Alessandra: 304 Menjo, Hiroaki: Matthaeus, William H.: 648 648 William H.: Matthaeus, 877, 420, 468, 765, 414, 419, Matthews, John: 1004, 1018 1054 A. J.: Matthews, John PoS(ICRC2015)1236

Moretti, Elena: 783 Moretti, Elena: 1016, 860, 625, 860, Moretto, Camille: 1075, 1302 629 Mori, Koji: 1300 261, 538, 539, Mori, Masaki: 1137 71, 990, Mori, Nicola: 513 163, 160, Isao: Morishita, 1105 Giovanni: 321, 700, Morlino, Arkadiy: 784 Morozov, 1204 Anna: 554, Morozova, 45 D: 44, Sam Morris, 39 36, Samuel: Morris, 564 46, 294, Morselli, Aldo: 46 Morselli, Nestor: 142 136, Saba: Moghaddam, Mortazavi Morzabaev, Aidar: 230 884, 401, 403, 691, Igor: 398, Moskalenko, 1207 551 Godfrey: Mosotho, 1044 Möstl, Christian: 717 Mot, Baptiste: 865 Yuko: Motizuki, 227 Motloch, Pavel: 1087 Yuji: Motokawa, 865 Motoyama, Hideaki: 893 438, Motz, Holger: 274 47, 127, Yassir: Moudden, 274, 279, 46, 127, 729, Moulin, Emmanuel: 938, 1254 1077 Moussa, Abdelilah: 96 Mu, Xueling: 514 Michael: Mueller, 1169 Sarah: Mueller, 523 Sebastian: Mueller, 784 245, Rauf: Mukhamedshin, 1101 591, 824, Reshmi: 130, Mukherjee, 1198 Mulas, Roberta: 871 J: 374, Michael Mulhearn, 1290 Muller, Dietrich: 1305 Müller, Gero: Katie: 660, 826 Mulrey, Moreno, Eduardo: 1369 1369 Eduardo: Moreno, 1191 Eduardo: Barbosa, Moreno

: 742, 773, 900 900 : 742, 773, ł 513 P.K.: Mohanty, Pravata: 37, 38, 39 39 37, 38, Mohanty, Pravata: 45 K: 44, Mohanty, Pravata Modzelewska, Renata: 782, 1231, 1249, 1284 1284 1231, 1249, Renata: 782, Modzelewska, 824 684, Mognet, Isaac: 547 Mahmoud: Mohamed, 1106 163, 1084, 160, Mohanty, P.K: Mohanty,

991 Miuchi, Kentaro: 87 Miura, Makoto: 865 Miyake, Fusa: 396 Miyake, Shoko: 1198 1075, 625, 1016, Miyamoto, Hiroko: 991 Miyamoto, Shohei: 957 Miyamoto, Shuji: 1300 Miyo, Koseki: 991 Tetsuya: Mizumoto, 991 Yoshitaka: Mizumura, Stefan: 899 Mladenov, 1248 994, 207, Mocchiutti, Emiliano: 663 Mochkovitch, Robert: Moderski, Rafa Morales De Los Rios, J A: 1309 J A: Rios, De Los Morales 1008 J.A.: Ríos, De Los Morales Moloto, Katlego: 1152 1152 Moloto, Katlego: 78 Montaruli, T.: 1397 65, 320, 734, 1179, Montaruli, Teresa: 961 524, Montini, Paolo: 1184 Thierry: Montmerle, 724 Moon, Y.-J: 1264 Moore, P.: 1361 Mora, Knut: 53, 101, 260, 441, 546, Harm: Moraal, 551, 1039 121, 209, 308, 309, Abelardo: Moralejo, 346, 465 554, Miguel: Morales, 1204 Mohanty, Pravata Kumar: 36 Kumar: Mohanty, Pravata 362 Reetanjali: 269, Moharana, 158 Mohlolo, Timothy: 490 Lars: Mohrmann, 1210 Alexander: Moiseev, 344 Andrea: Molinario, 1034 Maximiliano: Mollo, Carlos PoS(ICRC2015)1236

179, 249, 682, 929, 947, kuklinski, Janusz: 773 Janusz: kuklinski,

˝ 1283, 1302 1283, 1302 992, 1067, 1294 1294 992, 1067, Neunteufel, Patrick: 685 685 Patrick: Neunteufel, 556 236, Nadine: Neyroud, 161 54, Donald: Ngobeni, 1052 372, 932, Thanh: Nguyen, 556 Nicastro, Luciano: 841 660, 826, 828, Nichol, Ryan: NicolauU Nicoll, Keri: 1041 1041 Nicoll, Keri: 1208 Hans: Niederhausen, 1306 Andrzej: Niedzwiecki, 773 484, 674, 72, 370, 377, Jacek: Niemiec, 1230 Petteri: Nieminen, 630, 831 Niess, Valentin: 469 130, Nieto, Daniel: 750 Nieto, Luis: 1101, Daniel: 684, 690, 824, Nieto Castano, 1343 719 Miguel: Nievas, Rosillo, Miguel: 927 Nievas 346 Miguel: Nievas-Rosillo, Nayak,36, P.K.: 39 45 44, K: Pranaba Nayak, 729 127, Nayman, Patrick: Sergey: 784 Nazarov, 157 Ndiitwani, Chris: 47 For: Nectarcam, 172 Dominik: Neise, 1161 Nel, Amore: 1056 Lukas: Nellen, 920, 923, 492, 766, 822, Anna: Nelles, 977, 387 Nero, Filipe A.: Andrii: Neronov, Naoto, Sakaki: 836 836 Naoto, Sakaki: 1052 Naoya, Hidaka: 1012 Naoya, Inoue: 1145 Andrea: Nardinocchi, 1304 Natale, Giovanni: 841 660, 826, Charles: Naudet, 1101 824, Dirk: Naumann, Lara: 1105 Nava, 387 Enrique: Navia, Carlos

1257, 1362 1257, 1362

Munar Adrover, Pere: 295 Adrover, Munar 1239, 131, 911, 120, 117, Kazuoki: Munakata, Murphy, Ronald: 769, 1253 Murphy, Ryan: 817, 1314 Murphy, 1322 Mursula, Kalevi: 120 O.: Musalem, 911 Octavio: Musalem, 861 Omar: Musalem, Felix: 813, Octavio 1239, Clemente, Musalem 1257 1290 Jim: 1154, Musser, 1283 Mustafa, M: 429 Mustafa, Malek: 533 531, Mutel, Robert: 1260 Myers, Isaac: Nagai, Yuya: 88 1004 747, 765, 414, 629, Shigehiro: Nagataki, 284 Nagesh, B: 1300 629, Naito, Tsuguya: 1045 Masayuki: Nakahata, 865 Yoichi: Nakai, 862 608, Daisuke: Nakajima, 1239 120, 911, Takaaki: Nakajima, 629, 862 Nakamori, Takeshi: 991 Kiseki: Nakamura, 991 Shogo: Nakamura, 1106 513, 1084, 163, 160, Toru: Nakamura, 1239 120, 452, 911, Yoshiaki: Nakamura, 830 Nakano, Yuuki: 297 291, Takao: Nakatsuka, 1045 Shoei: Nakayama, 1100 660, 826, 841, Nam, Jiwoo: 623 245, Nam, Rodion: Murphy, R. P.: 1264 R. P.: Murphy, Mundell, Carole: 1118 1118 Mundell, Carole: 1248 333, Munini, Riccardo: 1197 1011, 303, 928, Thomas: Murach, 926 88, 266, 769, Yasushi: Muraki, 1318 111, 629, 1272, Kohta: Murase, 1291 Simona: 801, Murgia, 129 Muriel, Hernan: Katharine: 841 Murley, PoS(ICRC2015)1236

824, 954, 1052, 1101 1101 824, 954, 1052, 1054, 1084, 1106, 1358 1358 1106, 1054, 1084, Olevitch, M. A.: 1264 Olevitch, M. A.: 1272 682, 570, 577, 585, Olinto, Angela: 735 V: Olinto, Angela 1335 Alberto: 355, 1221, Oliva, 127 Olive, Jean-François: 1341 728, 1114, Omodei, Nicola: 1293 Aongus: O’murchadha, M.: 392 O’neill, P. 265 Ono, Sakiya: 859 Onogi, Ryota: 602 Niels: Oppermann, 1045 Orii, Asato: Elena: Orlando, 1207, 691, 879, 403, 398, 401, 1263 775Orsi, Silvio: Ochi, Nobuaki: 291, 297 297 291, Ochi, Nobuaki: 991 Oda, Makoto: 647 Hirokazu: Odaka, 802 Juergen: Oehlschlaeger, 688 O’faolain De Bhroithe, Anna: 662, 1283 T: Ogawa, 58 Ogino, Momoko: 859, 939, 513, 160, 163, Ogio, Shoichi: 1018, 419 Ogio, Shouichi: 297 Ohara, Soji: 291, 811 316, 440, 629, Ohira, Yutaka: 1300 Ohishi, Michiko: 957 Ohkuma, Haruo: 1183 1020, 1053, Ohm, Stefan: 556, 646, 696, 112 Munehiro: Ohnishi, 1057 862, Hideyuki: Ohoka, 419 Ohota, Izumi: 630 Foteini: Oikonomou, 903 Ojha, Roopesh: 893 Yuko: Okada, 297 291, Okei, Kazuhide: 1300 414, 572, 765, 1004, Takeshi: Okuda, 769 88, 266, Osamu: Okudaira, 58, 83, 130, 264, 265, Akira: Okumura, 629, 1045 Kimihiro: Okumura, 489 478, Oleneva, Viktoriya:

434, 441 434, 441

765, 1004, 1018, 1054, 1084, 1106 1106 1054, 1084, 1018, 765, 1004,

960 955, Tim: Niggemann, 1110 Nikolay: 1102, Nikonov, 1118 Kari: Nilsson, Nina, Carlos: 1146 Oakes, Louise: 318, 1299 1299 318, Oakes, Louise: 88, 266 Obara, Takahiro: 1045 Yoshihisa: Obayashi, 514 Andreas: Obermeier, 383 Anna: 361, Obertacke, 1071 Paul: O’brien, Nkosi, Sibusiso: 161 161 Nkosi, Sibusiso: 161 98, 99, 97, Rendani: Nndanganeni, 783 Koji: 58, 264, 485, Noda, 298 Maximilian: Noethe, Sam: 668 Nolan, 71 Noli, Pasquale: 36, 39 T.: Nonaka, 163, 414, 513, Toshiyuki: 160, Nonaka, 572, 1129 None: None, 1101 Richard: 824, Northrop, 1259 495, 185, 189, Dalibor: Nosek, 189 Jana: Noskova, Vladimir: 495 Novotny, 1335 1221, 609, 952, Francesco: Nozzoli, 1097 Monica: Nunes, 1146 Luis: Nunez, 1253 Marlon: Nuñez, 1256 1238, A.: 1146, 1190, Luis Núñez, 1238 Arturo: Núñez-Castiñeyra, 274 127, François: Nunio, Nuntiyakul,263, Waraporn: Tsitsi: 1216 Nussinov, 441 428, 434, Nutaro, Tanin: 1290 Nutter, Scott: 1154, 1180 Aongus: Ó Murchadha, Nisa, Mehr Un: 216 216 Un: Nisa, Mehr 1300 242, Nishijima, Kyoshi: 377 72, Nishikawa, Ken-Ichi: 859 Nishimoto, Yoshiki: 261 Naoki: Nishimura, Nitta, N.: 818 528 Sibusiso: Nkosi, Godfrey PoS(ICRC2015)1236

: 773, 1179 : 773, 1179 ł Pavalas, Gabriela Emilia: 1077 Pavalas, Klimov: 836 Pavel, 623 245, Victor: Pavlyuchenko, Sandrine: 127 Pavy, 695 Manuel: 646, Paz Arribas, 1337 Jeffrey: Peacock, 824 684, Peck, Andrew: 1167 Pedaletti, Giovanna: 251, 1265 Carmelo: Pellegrino, 1238 Peña, Jesus: 919, 1145 Peng, Wenxi: 729 Penno, Marek: 952 Pensotti, Simonetta: 471, 609, 255 James: Pepper, Paniccia, Mercedes: 1221, 1335 1335 1221, Mercedes: Paniccia, 1155 860, 1129, Panico, Beatrice: Aleksandr: 561 Panov, 718 Alexander: Panov, 862 699, 294, 290, Paoletti, Riccardo: 1397 Giovanni: Pareschi, 971 663, 966, 657, 639, Parizot, Etienne: 632, 1349 Park, A.H.: 1349 Park, I.H.: 433 Park, Jeongmin: 1290 612, 616, 1154, Park, Nahee: Parker, Joseph: 991 1020 Elliot Parkin, Ross: 63 Dan: Parsons, 780 Daniel: Parsons, 596 Parsons, R. D.: 1011, 498, 631, 928, 938, Robert: Parsons, 1071 1023 P.: Paschalis, PawePas´ko, 1074 653, 682, Blahoslav: Pastircák, 699 Giovanni: Paternoster, 527 Pato, Miguel: 789 Patricelli, Barbara: 787, 499 Paul, Stephan: 393 Paul, Thomas: 294 Pauletta, Giovanni: Gabriela: 351 Pavalas, Paneque Camarero, David: 772 David: Camarero, Paneque

: 78, 742, 773, 1286 1286 773, : 78, 742, ł ukasz: 370 370 ukasz: ł Osborne, Julian: Julian: Osborne, 556 Otiniano, Luis: Otiniano, Luis: 1327

Ortiz, E.: 120 1257 1239, 813, 911, Ortiz, Ernesto: Ortyl, Panashyuk, Mikhail I.: 939 1165 Mikhail: Panasyuk, 127 Panazol, Jean-Luc: 347 Pandel, Dirk: 369 Pandya, Hershal: 485 David: Paneque, Otte, A. Nepomuk: 372 372 Otte, A. Nepomuk: 1275 1052, 180, 824, Otte, Nepomuk: 902 V.V.: Ovchinnikov, Ovchinnikov, Vyacheslav: 1168, 1209 1061, 1168 Alexandr: Ovechkin, 1194 Chris: Owen, 695 Owen, Ellis: 1195 1194, Mathew: Owens, 370 Tomasz: Owerko, 963, 973, Oya, Igor: 303, 506, 556, 610, 995, 1183 869 Keita: Ozaki, Jagadeesan: 44 P, 270 Padovani, Marco: 733 Padovani, Paolo: 410 271, Paiano, Simona: 860 Painter, William: 1204 554, Pais, Alexandra: 199 66, Palacio, Joaquim: 1204 554, Palka, Marek: 481 Palma, Francesco: 1182 1139, Palmroth, Minna: Osborne, Julian P: 236 P: Julian Osborne, 38 Oshima, A.: 37, Akitoshi: 36, 39, 44, 45, 120, Oshima, 160, 1239, 1084, 1106, 163, 513, 911, 1257, 1300 1239 Takahiro: Oshima, 767 Andrew: Osieczanek, 403 Sergey: Ostapchenko, 1025 860, Giuseppe: Osteria, Ostrowski, Micha PoS(ICRC2015)1236 ukasz: 773 773 ukasz: ł 1221, 1335 1221, 1335 158, 161, 183, 192, 198, 333, 528, 593 593 528, 192, 198, 333, 158, 161, 183, atos, ł Plewa, Matthew: 1337 1337 Plewa, Matthew: Igor: 895 Plotnikov, 176 Sergey: Podkladkin, 561 Podorozhny, Dmitry: 802 Gevorg: Poghosyan, 192 Pogorelov, N.V: 915 Silja: 511, 534, Pohjolainen, 484, Pohl, Martin: 60, 64, 72, 358, 359, 775, 957 Poilleux, Patrick: 1098 Vincent: 942, Poireau, Nikolay:Pokrovsky, 195 Danila: 561 Polkov, 101 Poluianov, Stepan: 90, 1289 Ponce, Epifanio: 938 Poon, Helen: 1304 Popescu, Cristina: 1283 Popescu, E. M.: 466, 681 Popescu, Eugeny: Alexis: 400 Popkow, 1179 Porcelli, Alessio: 900, 1176, 1338 Porelli, Andrea: 561 Sergey: Porokhovoy, 884, 403, 691, 801, 398, 401, Porter, Troy: 1207 499 Pöschl, Thomas: 1141 Konstantin: Postnov, 97 Potgieter, Marius: 54, 98, 99, 114, 154, Potgieter, Marthinus: 157, 942, 1098 Poulin, Vivian: 1219 Thierry: Pradier, 810 537, Ribeiro: Prado, Raul Pimenta, Mario: 537, 810 810 Mario: 537, Pimenta, 924 Pinat, Elisa: 1309 Pindado, Santiago: 245 Piscal, Vyacheslav: 623 Piskal, Vyacheslav: 1035 978, Pita, Santiago: 965, 364 Pivato, Giovanna: 1335 952, 1221, Cecilia: 609, Pizzolotto, 1023 Plainaki, C.: P

472, 1114 472, 1114 802, 803, 1108, 1162 1162 802, 803, 1108,

810 Pereira, Americo: 387 235, Augusto Stuani: Pereira, Luiz 1256 Yunior: Perez, 1204 Vicente: 554, Muñuzuri, Perez 1309 Santiago: Perez-Cano, 1309 Isabel: Perez-Grande, 289 Miguel-Ángel: Pérez-Torres, 1155 860, Perfetto, Francesco: 236 Perri, Matteo: 986 Chiara: Perrina, 1031 917, Lorenzo: Perrone, 783 Massimo: Persic, 1114 Pesce-Rollins, Melissa: 518 Peters, Christine: 824 Petrashyk, Andriy: 130, 684, 713 Petrera, Sergio: 733 Maria: Petropoulou, Petrosian, Vahe: Petrov, Igor: 254, 257, 262, 444 444 Igor: 254, 257, 262, Petrov, Petrov, Zim: 262 127 Petrucci, Pierre-Olivier: 972, Petrukhin, Anatoly: 226, 683, 902, 997, 1204, 1203, 1199, 1193, 1061, 1168, 1209, 1212 895 Ivan: 477, 479, 480, Petukhov, 482 Stanislav: 480, 477, 479, Petukhov, 482 480, 477, Petukhova, Anastasia: 136 Yousef: Pezeshkian, Pfau-Kempf,1182 Yann: 1319 Pfeifer, Marc: 1293 1126, 843, Gilbert: Carl Pfendner, 1041 230, Philippov, Maxim: 789 Pian, Elena: 648 Pianpanit, Theerasarn: 1298 Piattelli, Paolo: 1014, 1034, 129 Pichel, Ana: 1267 1205, Nicolas: Picot-Clemente, 1165 694, Picozza, Piergiorgio: 699 Piemonte, Claudio: Pierog, Tanguy: 127 Pierre, Eric: 491 Konstantinos: Pikounis, 615 Pilo, Federico: PoS(ICRC2015)1236

Rauch,

Radu,

492, 920, 923 492, 920, 923 aw: 773 773 aw: ł Rauch, Brian F.: 1287 F.: Brian Rauch, Rädel, Leif: Rädel, 642 J.: 78 Rajda, P. 1319 65, Pawel: Rajda, 1179 J.: Pawel Rajda, Rajiv, Kumar: 445 169 Engel: Ralph, 552 Ekaterina: Ramakoti, 734 320, Mohamed: Rameez, 1309 Luis: 1283, Ramirez, 127 Pascale: Ramon, 952 496, 609, 471, Pier-Giorgio: Rancoita, 294 204, 176, Riccardo: Rando, 45 Rao, B Srinivasa: 44, 1106 Rao, B.S: 160, 163, 1084, 513 Rao, B.S.: 36, 39, 1335 775, Divic: Rapin, 1221 Divic-Jean: Rapin, 234 201, 205, 142, Gohar: Rastegarzadeh, Rataj, Miros 274 127, Sébastien: Rateau, 1264, 1314 B. F.: Rauch, 826 660, 817, Brian: Rauch, A. A.: 466 A. A.: 72 Rafighi, Iman: Sibaji: 526 Raha, Brian Flint: 790, 841 841 Brian Flint: 790, 1048 Osku: Raukunen, Raulin, Jean-Pierre:230 1054 E: Rauly, 1226 597, 1223, Julian: Rautenberg, 1083 Diego: Ravignani, 795 Katherine: 794, Rawlins, 789 364, Massimiliano: Razzano, 362 100, 269, Soebur: Razzaque, 1164 Justin: Read, 1298 Real, Diego: 82 Don: Reames, 1075 1075 Rachen, J.P.: 1067 Joerg: Rachen, 1294 754, 766, 992, Jörg: Rachen, 977 P.: Jörg Rachen,

1220 410, 305, Elisa: 249, 251, Prandini, 127 Prast, Julie: 1038 M.: Preobrazhensky, 867 866, Pretz, John: 860 Prevot, Guillaume: 1075 625, Prévôt, Guillaume: Prieto, H.: 1008 1309 Prieto, Hector: 227 Privitera, Paolo: 119 Tijana: Prodanovic, 775 Produit, Nicolas: 431 Profumo, Stefano: 1134 1123, Prokoph, Heike: 887 Vasily: Prosin, 533 Protheroe, Ray: 531, 1288 Grigory: Protopopov, 104 Michael: Prouza, 78 R.: Pruchniewicz, 1173 1141, Maxim: 858, 1133, Pshirkov, 1105 188, 200, Ptuskin, Vladimir: 784 Vitaliy: Puchkov, 245, 619 Vitaly: Puchkov, 1324 1319, Gerd: 1299, Puehlhofer, Pueschel, Elisa Kay: 832 832 Kay: Pueschel, Elisa 1197 1071, Gerd: 277, 962, Pühlhofer, 127 62, Punch, Michael: 1038 PustilŠnik, Lev: 870 132, 864, Pustilnik, Lev: 682 471, Putis, Marian: 1074 653, PutiŽ, Marián: 1302 PutiŽ, Marian: 1098 Putze, Antje: 942, 1076, Sergey:Pyatovsky, 784 434 263, Pyle, Roger: Qiao, Rui: 919 Qin, Xi: 307 1335 Qin, Xiaoting: 1221, 1223 Sven: Querchfeld, 874 Quinn, John: 597 343, Susanne: Raab, Raath, J.L.: 157 593 Raath, Jan-Louis: Julio Arturo: 625, 860, Reina, Rabanal 1016, PoS(ICRC2015)1236

Rovero, Adrian C.: 129 C.: Rovero, Adrian 1300 277, 1071, Gavin: Rowell, 900 Piotr: Rozwadowski, 952 471, 496, 609, Davide: Rozza, 1114 Fatima: Costa, Da Rubio 781 765, 414, Grigory: Rubtsov, 1368 Oleg: Ruchayskiy, Rudak, Bronek:1013 434, 441, 263, 425, 428, Ruffolo, David: 638, 648 Rodriguez Garcia, Jezabel: 608 1190 Manuel: Pascual, Rodriguez 556 José: Juan Rodríguez-Vázquez, 188 Svetlana: Rogovaia, 1009 1003, Hiroki: Rokujo, 918 Evgeniya: 683, Romanenkova, 841 Adrew: Romero-Wolf, 843, 660, 826, 828, Andrew: Romero-Wolf, 845, 1297 1280 1197, 547, 780, 1187, Romoli, Carlo: 313 Romoli, Carlos: Roques, Jean-Pierre:102 288 Eduardo: Ros, Clavero: 1206 Rosa, 387 Evandro A.: Rosa, 719 Jaime: Rosado, 35 Daniel: Rosa-González, 556 Simon: Rosen, 1294 Laura: Rosetto, 1098 176, 942, Sylvie: 127, Rosier, 954 729, Duncan: Ross, 923 L.: Rossetto, 492, 920, 1067 992, Laura: 766, 977, Rossetto, 1169 371, 980, 1117, Roth, Markus: 855 Rott, Carsten: 687, 841 826, 660, 819, Rotter, Benjamin: 717 Gilles: Roudil, 734 Esteban: Roulet, 1101 824, 130, 684, Julien: Rousselle, Rovero, Adrian: 701 Rodriguez Frias, Rodriguez 1008, 1024, 979, Maria: 1309 1302, 1283, 1292, 929 Dolores: Maria Frías, Rodríguez

Rodriguez

740 Sarah: Recchia, 371 Javier: Redondo, 1275 Bobbey: Reese, 646 Ignasi: 176, Reichardt, 1243 998, 277, 583, 606, Anita: Reimer, 1319 1243, 1262, Olaf: Reimer, 1243 Klaus: Reitberger, 468 420, Matthew Ryan: Relich, 973, 1053, Matthieu: 258, 399, Renaud, 1107, 1299 630 Nicolas: Renault, 1019 Nicolas: Renault-Tinacci, 733 Elisa: Resconi, 673 Mukherjee: Reshmi, 64 Rettig, Robert: 1072 Revenu, Benoît: 549, 645, Pablo: 554, 1204 Rey, 1024 M.: 979, 1008, Reyes, 1309 Marcos: Reyes, 824 684, Deivid: Ribeiro, 556 61, Ribo, Marc: 1248 846, 854, 560, Ricci, Marco: 1276 Giorgio: 1265, Riccobene, 70 Richard, Euan: 1157 Richards, Gregory: 799 Richardson, Ian: 23 22, Kumar: Mahendra Richharia, 33 Richter, Stephan: 329 252, 308, 66, 170, 236, 46, Rico, Javier: Jan: Ridky, 810 1063 Benedikt: Riedel, 1187 547, 933, Frank: Rieger, 1360 Felix: Riehn, 1108, 1313, 1012 Abe: Rihiko, 1369 Rivière, Colas: 1331 424, Rizi, Vincenzo: 1101 824, Emmet: Roache, 1018 1012, Cady: Robert, 1362 131, 117, Marlos: Rockenbach, 860 432, 429, Matthew: Rodencal, Rodriguez, Jerome: 882 Cahuantzi, Mario: 1196 1196 Mario: Cahuantzi, 294 Gonzalo: Fernandez, Rodriguez PoS(ICRC2015)1236

1007 1007 Sanuy Charles, Andreu: 127 Andreu: Sanuy Charles, 1309 A: Sanz-Andres, 1309 Miguel: Sanz-Palomino, 1335 Saouter, Pierre Erwan: 1221, 1282 Piera: 1265, Sapienza, 1052 Leonid: Sapozhnikov, Sapundjiev, Danislav: Saldaña Coscollar, María: 1265 María: Coscollar, Saldaña 729 Salek, David: 739 348, Francisco: Salesa Greus, 507 Salina, Gaetano: 88 Salinas, J: 1146 Salinas, Juan: 841 828, 660, 826, David: Saltzberg, 1264 F.: San Sebastian, 780 236, 641, David: Sanchez, 1117 Federico: Sanchez, 1309 Jose Luis: 1283, Sanchez, 1024 1008, Jose Luis: 979, Sánchez, 624 Agustín: 173, 588, Losa, Sánchez 46 Miquel: Sánchez-Conde, 342 Sand, Krystina: 1230 Ingmar: Sandberg, 529 Sandoval, Andres: 329 Sanguillot, Michele: 493 Matteo: 488, Sanguineti, 629 Sano, Hidetoshi: 1052 675, 824, 673, Marcos: Santander, 570, 577, 585, 590, Andrea: Santangelo, 611, 1324 962, 1319, 694, 899, 947, 639, 653, 682, 1097 Mendes: Santos, Lucas 128 Sara, Cutini: 71 Giiulio: Saracino, 1054 Fred: Sarazin, 1253 Christos: Sarlanis, 810 Sarmento, Raul: 1256 1146, 1238, Christian: Sarmiento-Cano, 1257 120, 911, 1239, Sasai, Yoshinori: 1314 M.: 1264, Sasaki, 1287 1170, 817, 1027, Makoto: Sasaki, 1299 Manami: Sasaki, Salazar, Humberto: Humberto: Salazar, 1289

926, 953, 1239, 1257, 1300 1300 1257, 926, 953, 1239, 734, 765, 877, 1004, 1018, 1022, 1054 1054 1022, 1004, 1018, 734, 765, 877,

294 Andrea: Rugliancich, 1090 Tim: Ruhe, 401 Roberto: Austri, De Ruiz Saez Cano, Guadalupe: 1283 1283 Guadalupe: Saez Cano, 1302 Guadalupe: Sáez Cano, 1309 1292, Saez-Cano, Guadalupe: 1024 979, 1008, G.: Sáez-Cano, 1107 Safi-Harb, Samar: 420, 468, 414, 419, Sagawa, Hiroyuki: 572, 284 Saha, L: 1155 860, Zouleikha: Sahnoun, 43 Saikia, Julie: 46 Saito, Takauki: 1300 58, 360, 629, 862, 1057, Saito, Takayuki: 441 434, 263, 428, Saiz, Alejandro: 638 Sáiz, Alejandro: 1314 Sakai, K.: 1264, 1287 817, 1278, Sakai, Kenichi: 1171 939, 393, 639, 717, Naoto: Sakaki, 88, 112, 120, 304, 419, 911, Sako, Takashi: 1018 765, 1004, 572, 414, Nobuyuki: Sakurai, 804 Sala, Paola: 713 Salamida, Francesco: 1098 942, 946, 1076, Salati, Pierre: Rybka, Dominik: 775 775 Rybka, Dominik: 1061 902, Saavedra, Oscar: 683, Dolores: Sabau, María 1309 Dolores: 1283 Sabau, Maria 131 117, Sabbah, Ismail: Sabirov, Basar: 681 234 205, 201, Sabouhi, Mohammad: 623 245, Turlan: 195, 211, Sadykov, Ryan, James M.: 516 Ryan, M.: James Ruizhi, Yang: 69 954 264, 874, Rulten, Cameron: 533 Dagkesamanskii: Rustam, 775 Rutczynska, Aleksandra: 492 Rutjes, Casper: Konrad:Rutkowsky, 1179 623 Vladimir: 245, 500, Ryabov, Ryan, James: 1248 PoS(ICRC2015)1236

Selig, Marco: 602 602 Selig, Marco: 1168 Vyacheslav: Selyakov, 957 Igor: Semeniouk, 709 110, 179, Dmitri: Semikoz, 1349 Seo, Eun Suk: 339, 1267, 1344 1281, Seredyn, Tomasz: 836 Sergei, Sharakin: 638 Achara: Seripienlert, 1387 Pasquale: 1076, Serpico, 329 Servillat, Mathieu: 773 Karol: Seweryn, 895 Ludmila: Shadrina, 1232 Shahinyan, Karlen: 68 56, 67, Shalchi, Andreas: 939 Sergei: Sharakin, 1171 Sergey: 1165, Sharakin, 769 Share, Gelrald: 1253 Share, Gerry: 131 M.: 117, Sharma, Madan 1288 Pavel: Shatov, 245 Sergey: Shaulov, 1142 Shaybonov, Bair: 1086, 1093, 550 536, Shayduk, Maxim: Schultz, David: 1337 Schultz, David: 980 Alexander: Schulz, 646 597, Anneli: Schulz, 679 Johannes: Schulz, 288 Robert: Schulz, 960 622, 955, 518, Johannes: Schumacher, 969 556, 277, 278, Fabian: Schüssler, 1319 729, Schwab, Thomas: 558 Nathan: Schwadron, 536 Ulli: Schwanke, 1197 506, 995, 318, 303, Ullrich: Schwanke, 506 Schwarz, Joseph: 962 Stefan: Schwarzburg, 360 330, Schweizer, Thomas: 1195 Scott, Chris: 1025 860, Scotti, Valentina: Sdobnov, Valery: 12 1352 660, 826, 841, Seckel, David: 554 Seco, Marcos: 1204 Marcos: Seco Miguelez,

1220 329, 346, 271, Konstancja: Satalecka, 236 Kostancia: Satalecka, 1054 Sato, Ricardo: Satoshi, Yoshiike: 1167 629 Makoto: Sawada, Sawano,991 Tatuya: 860 429, 432, Sawatzki, Jurgen: Schröder, Frank G.: 693 G.: Frank Schröder, 1329 Schrön, Martin: 1290 1154, Michael: Schubnell, 131 J.: Nelson Schuch, 1362 117, Jorge: Nelson Schuch, 636 Schulte, Stephan: 1134 541, 176, 204, Cornelia: Schultz, Schioppa, Enrico Junior: 65 Junior: Enrico Schioppa, 1101 318, 824, Stefan: Schlenstedt, 123 Reinhard: Schlickeiser, 630 341, Schmid, Julia: 506 Schmidt, Torsten: 954 Schmoll, Jurgen: 483 Jutta: Schnabel, 642 Sebastian: Schoenen, 923 Scholten, O.: 492, 531, 533, 645, 241, Scholten, Olaf: 766, 1294 1067, 920, 977, 992, 340 338, Schoo, Sven: Harm: Schoorlemmer, 826, 382, 660, 819, 357, 841 222 Cedric: Schreiner, Frank: Schröder, 645 Saz Parkinson, Pablo: Pablo: Saz Parkinson, 1369 1224 Scargle, J.: 810 Scarso, Carlos: 729 Markus: Schade, 371 Christoph: Schaefer, 1324 1319, Thomas: Schanz, 955 Schaufel, Merlin: 766, 920, 923, 977, Pim: 492, Schellart, 992, 1067, 1294 1090 361, Florian: Scheriau, 661 Harald: Schieler, 800 Schimp, Michael: E.J.: Schioppa, 78 PoS(ICRC2015)1236

Sousa, Tiago: 1230 1230 Sousa, Tiago: 387 V.: Souza, Henrique Souza, Jaime: 810 De: 537 Souza, Vitor 674 Maciej: Sowinski, 1182 Felix: 33, 222, 1128, Spanier, 481 190, Sparvoli, Roberta: 533 531, Spencer, Ralph: 703 Spurio, Maurizio: Sinitsyna, Vera Georgievna: 28 Georgievna: Sinitsyna, Vera 28 Yurievna: Sinitsyna, Vera 1220 927, 288, 292, 579, Sitarek, Julian: 1199 Sitko, Olga: 1164 Sivertsson, Sofia: 957 47, 127, Sizun, Patrick Yves: 370 Krzysztof: Skowron, C.: 392 Slaba, T. 1179 Vitalii: Sliusar, 105 Smart, Don: 215 Andrzej: 212, Smialkowski, 685 169, Smida, Radomir: 1381 Alexei: Smirnov, 784 Smirnova, Marina: 686 397, Smith, Andrew: 1222 558, Smith, Charles: Smith, David A.: 1252 Smith, Iain: 767 1054 Smith, L: 648 Snodin, Andrew: 26 Tomasz: Sobczak, 1365 Sobczyk, Agnieszka: 467 Sobczynska, Dorota: 718 Nataliya: Sokolskaya, Sol, H.: 1397 210 Sol, Hélène: 1144 Sol, Helene: 287 Soldin, Dennis: 821 Sollitt, Luke: 991 Sonoda, Shinya: 1024 979, 1008, J.F.: Soriano, 1302 Fernández: Jorge Soriano, Singh, B: 284 Singh, B: B.: Singh, Chandra 1215

997, 1212

419, 420, 468, 877 877 419, 420, 468, ander: 245, 623 623 ander: 245, 1100 1100 653, 682, 947, 1074, 1302 1302 1074, 653, 682, 947,

Oleg:Shchegolev, 40, 827, Simoni, Rachel Christiane: 729 Christiane: Simoni, Rachel 1337 Simons, Ariel: 1229 Nikolai: Sinev, Simburger, G. E.: 1264 E.: G. Simburger, 1265 Simeone, Francesco: 294, Simone, Daniela: 699 Shtejer Diaz, Katherin: Shtejer Diaz, 1196 1209 1061, Ivan: 902, 972, Shulzhenko, 561 Shumikhin, Vitaly: 420 Shunsuke, Ueyama: 683, 902, 918, 1037, 1061, Shutenko, Victor: 1209 1203, 1199, 1168, 1193, 1204 Shutenko, Viktor: 1060 Renat: 133, 934, Sibatov, 1109 Sidelnik, Iván: 236 Hubert: Siejkowski, 124 Sigaeva, Ekaterina: 1301 1249, 1059, Marek: 1055, Siluszyk, 1164 Hamish: Silverwood, Shore, Steven N.: 1240 Shore, Steven N.: 315 Shoushan, Zhang: 1355 1354, Pankaj Kumar: Shrivastava, Shiozawa, Masato: 1045 Masato:Shiozawa, Shea, Margaret A.: 105 A.: Shea, Margaret 71 Shearer, Craig: 810 Shellard, Ron: 451 Shen, Zhongtao: 150 Sheng, Xiangdong: Shepetov, Alex 871 374, Owen: Shimmin, Chase 316 Shimoda, Jiro: 877 420, 468, Shin, Bokkyun: Shinozaki, Kenji: 639, 570, 577, 585, 590, 611, Shestakov, Vladislav: 1061 Vladislav: Shestakov, Shi, H.L.: 775 Shiao, Y.-S.: 1235 Shibata, M.: 1233, 1201, 1225, 163, 36, 39, 120, 160, Shibata, Shoichi: 266, 1257 1106, 1239, 513, 911, 1084, 769 Shibata, Syoichi: 88, Shibata, Tatsunobu: PoS(ICRC2015)1236

1275 1275

889 uan: 554, 1204 Taboada, J Tabone, Ilaria: Tacchini, Alessandro: 556 952 Mauro: 471, 609, Tacconi, Supanitsky, A. Daniel: 701 1083 Supanitsky, Alberto Daniel: 1031 917, 1029, Surdo, Antonio: 1197 1000, 1123, Iurii: 313, 995, 999, Sushch, Olexandr: 521 Sushchov, 954 Sutcliffe, Peter: 221 Michael: Sutherland, 865 Asami: Suzuki, 1045 Soh: Suzuki, 1017 Sven, Schoo: 561 Lubov: Sveshnikova, 1089 439, Albina: 437, Svirzhevskaya, Nikolai: 1089 437, 439, Svirzhevsky, 526 Syam, Debapriyo: 1365 1364, 653, 775, Jacek: Szabelski, 236 Tomasz: Szepieniec, Taboada, Ignacio: 237, Stroem, Rickard: 282 282 Stroem, Rickard: 905 Thomas: Stroman, 545, 548 Strong, A.W.: 401, 691, 281, 398, Strong, Andrew: 1207, 1267 1262 Strong, Andy: 871 Strong, Homer: 697 Struminsky, Alexei: 841 Strutt, Benjamin: 1092 203, 251, Strzys, Marcel: 710 Stump, Dan: 708, 1256 1238, Mauricio: Suárez, 39 37, 38, Prasad: 36, Subramanian, 1062 Sergey: Suchkov, 705 Suh, Jungeun: 1198 860, 925, Suino, Gregorio: Sulaj, Arta: 705 Vladimir:Sulakov, 40 862 550, 127, Sulanke, Karl-Heinz: Sun, J.C.: 775 885 Sun, Zhandong: Suomijarvi, Tiina: 145

1212 1212 1186 1186

623 875, 1247 875, 1247

Stepanov, Vladimir:Stepanov, 40, 997, 1101 824, Ronny: Sternberger, 1002 Steuer, Anna: 824 684, Stevenson, Brandon: Stochaj, Steve: 1248 58 Stadler, Robert: 191 Victor: Stamatescu, 927 789, 410, 509, Stamerra, Antonio: 1313, 1360 Todor: Stanev, Stanimir: 1007 Stankov, Sergey: Starodubtsev, 409, 411, 895 685 Jaroslaw: Stasielak, 504 267, Stasik, Alexander: 1156 David: 1132, Staszak, 742 Stawarz, Lukasz: 1118 Steele, Iain: 189 185, Stefanik, Stanislav: 1164 Steger, Pascal: 763 729, Stegmann, Christian: 898 689, Steigies, Christian: 1319 Steiner, Stefan: 58, 294 176, Stella, Carlo: 1212 40, 827, 997, Stenkin, Yury: Stepanov, Alexey: Strauss, Roelf Du Toit: 114 114 Du Toit: Strauss, Roelf Straumann, Ulrich: 58, 1319 1319 58, Ulrich: Straumann, 599 595, 593, Toit: Strauss, Du Stochaj, Steven J.: 516 516 Stochaj, Steven J.: 841 826, 660, Jessica: Stockham, 841 826, 660, Mark: Stockham, 78 Stodulska, M.: 674 370, Stodulski, Marek: 1039 Stoessl, A.: 1208 Stoessl, Achim: 1018 781, 1004, 414, 765, Stokes, Benjamin: 236 Stolarczyk, Thierry: 705 Stolzi, Francesco: Stone, E.: 814 1314 Stone, E. C.: 1264, Stone, Edward: 373, 394, 702, 799, 817, 821, 230, 1041, 1089 Yuri: Stozhkov, Dominik:Stransky, 1175, PoS(ICRC2015)1236

492, 923 492, 923 ander: 531, 533, 766, 977, 766, 977, ander: 531, 533, 992, Tautayev, Yernar:Tautayev, 195, 211 Robert: 56 Tautz, 772 Fabrizio: 509, Tavecchio, Jean-Paul: 127, 1015 Tavernet, Thomas: 1013 978, Tavernier, 1077 Yahya: Tayalati, 1187 780, 792, 146, 547, Andrew: Taylor, Roberto: 911 Taylor, Tejedor, Luis Luis Ángel: 862 Tejedor, 127 Alvarez, Lui-Angel: Tejedor Igor: 60, 358, 359 Telezhinsky, 1135 1130, 174, 298, Fabian: Temme, Manuela: 1044 Temmer, Christoph: 1319, 1324 Tenzer, Ter Veen, S: 920 Ter Veen, S.: Ter Veen, S 1067, 1294 629 Yukikatsu: Terada, 1300 Toshio: Terasawa, Régis: 646 Terrier, 627, 666, 695, 978, 982, Regis: 1183, Terrier, 1188, 1299 Diego: 579 Tescaro, 862, 58, 176, 197, 783, Masahiro: Teshima, 1057 771 680, 768, Gordana: TeŽic, 556 Vincenzo: 236, Testa, 81 Thakur, Neeharika: Thomas, Schweizer:608 1195 Simon: 1194, Thomas, 468, 765, 414, 420, Gordon: Thomson, 781, 858, 877 729 Thornhill, Julian: 923, 754, 766, 920, 492, Satyendra: Thoudam, 1294 977, 992, 1067, 150 Tian, Ye: 974 Tian, Zhen: 250, 1198 Tibaldi, Piersilvio: 882, 954, 83, 407, 798, 1052, Tibaldo, Luigi: 1341 1146 Rolando: Ticona, 630 473, Charles: Timmermans,

629 475 265 409 160, 163, 513, 1084, 1106 1106 160, 163, 513, 1084, anobu: 862, 911 911 anobu: 862, 1084, 1106, 1239, 1257 1257 1239, 1084, 1106,

Tanaka, Takashi: Claudio: 506 Tanci, Taneev, Sergey: Yuhua: Tang, 206 Tanimori, Toru: 991 Li: 942, 1098 Tao, Taoso, Marco: 943 Gregory: 1154, 1290 Tarle, 1288 Sergey: Tasenko, 399 Vincent: Tatischeff, Tautaev, E.: 245 1382 M.P.: Tim Tait, Mauro: 1151 Taiuti, 1300 954, 1052, Hiroyasu: 83, 629, Tajima, Norio: 1358 Tajima, Atsushi: 991 Takada, 865 Kazuya: Takahashi, 297 291, Nobusuke: Takahashi, 427 Takahashi, Satoru: 859 Yuichi: Takahashi, 160, 163, 513, 120, Hisanori: Takamaru, 911, Hajime: 59 Takami, Atsushi: 949 Takeda, Junki: 862 Takeda, 1004 765, 572, 414, Masahiro: Takeda, 1054 Ryuji: 414, 765, 1018, Takeishi, Akinori: 957 Takemoto, Takemura, Taito: 991 1004 855, 414, 572, Akimichi: Taketa, Taketani, Atsushi: 765 Masato: 112, 426 Takita, 717, 939, 1171 Yoshiyuki: Takizawa, 1012 Takumitsu, Suzawa: Thomas: 1071 Tam, Irene: 55 Tamborra, 905, 1345 Yuichiro: Tameda, 487 Tadahisa: Tamura, Tanaka, K.: 36, 39 Tanaka, Koichi: Tanaka, M Tanaka, Syunya: Tanaka, Takaaki: PoS(ICRC2015)1236

920, 923, 977, 992, 1067, 920, 923, 977, 992, 1067, Troyano Pujadas, Isaac: 65 Isaac: Pujadas, Troyano 1054 T: Trung, Roumen: 899 Tsenov, 539 Satoshi: 538, Tsuchida, 911 Tsuchiya, Harufumi: 862 Yugo: Tsuchiya, 297 291, Tsuji, Shuhei: 1028, 88, 837, 57, 1345, Yoshiki: Tsunesada, 1358 Richard: 1304 Tuffs, 969 341, Damien: Turpin, Turundaevskiy, Andrey: 561 1257 Tushiya, Harufumi: 120, 1239, Andrii:Tykhonov, 384 Allan: 103 Tylka, 1051, 1253 Allan J.: Tylka, 1060 Vladimir: 133, 934, Uchaikin, 1045 862, 911, Uchida, Tomohisa: 629 596, Uchiyama, Yasunobu: 101 Roberto: Udisti, 991 Kazuki: Ueno, 468 Shunsuke: Ueyama, 710 708, Ukwatta, Tilan: 943 Ullio, Piero: 1091, 1108, 371, Ralf Matthias: 1162, Ulrich, Toscano, Simona: 249, 305, 929, 947, 1283 1283 929, 947, Simona: 249, 305, Toscano, 1012 Nonaka: Toshiyuki, Delia: 342, 807 Tosi, Gino: 506, 556 Tosti, 729 François: 127, Toussenel, Takeshi: Toyama, 783 Rita: 101 Traversi, 1259 810, Petr: Travnicek, Aldo: 496 Treves, 1088 931, 938, 945, Trichard, Cyril: 304 Tricomi, Alessia: 1061 683, Carlo: Gian Trinchero, 902 Giancarlo: Trinchero, Trinh, Gia: 766, 492, 1294 Sergey: 765, 781 Troitsky, 401 Trotta, Roberto: Agata: 1279, 1282 Trovato,

1045 1045 oph: 366 oph: 366

Tonachini, Aurelio: 294 Lev: 139, 462 Timofeev, 1376 Ting, Samuel: 765, 858, 414, 734, Peter: 1133, Tinyakov, 1173 858 Tirone, Alicia: 681 Artur: 561, 658, Tkachenko, Igor: 414, 765 Tkachev, 681 561, 658, Leonid: Tkachev, 1338 Martin: Tluczykont, M.: 1284 Todua, Toennis, Christ Peter: 497, 671 Toet, 211 195, Serekbol: Tokmoldin, 163 131, 160, 117, Munetoshi: Tokumaru, 1358 873, 414, 572, 765, Hisao: Tokuno, 710 708, 402, Kirsten Anne: Tollefson, Armstrong: 1222 Tom, Gabriel: 580 Toma, Albert: 1309 Tomas, 1244, 1245, Tomassetti, Nicola: 1221, 1246, 1335 Bernardo: 810 Tomé, 1283 T: Tomida, 1283, 1345 Takayuki: Tomida, Sara: 440 Tomita, Dai: 991 Tomono, Tomono, Yayoi: 242 Tomura, Tomonobu: Torresi, Eleonora: 556 Torresi, 549 Diego: Torres-Machado, 638 Usanee: Tortermpun, Torres Aguilar, Aguilar, Ibrahim: 1191 Torres 692 Ibrahim Daniel: Aguilar, Torres Tonachini, Aurelio Sirio: 1331 Tonachini, Aurelio Sirio: 424 Tonachini, Aurelio Siro: 1211 243, Christoph: Tönnis, 1106 1084, Suresh: Tonwar, Nikolay: 1062 Topchiev, Shoji: 430, 893 Torii, Torochkov, Mikhail: 561 Alejandro: 1190 Torres, 1167 Diego: 289, 360, 940, Torres, PoS(ICRC2015)1236

Ludmila: 623 Ludmila: 623 ko, Ján: 1074 ko, ł Vásquez, Nicolás: 1213 1213 Nicolás: Vásquez, 1101 130, 824, Vladimir: Vassiliev, Acosta,Vazquez Monica: 66,199 Darko: 371 Veberic, Manuela: 1098 942, Vecchi, Johannes: 938, 1058 Veh, Peter: 17, 18 Velinov, Christo: 126, 1013 Venter, Rohit: 445, 1160 Verma, 335 Silvia: 162, 285, Vernetto, Astrid: 1044 Veronig, 294, 1393 Valerio: Verzi, Igor: 1203 Veselovsky, Aion: 938, 1254 Viana, 1341 728, 238, Vianello, Giacomo: 810, 1259 Jakub: Vicha, Matias: 1207 Vidal, Thales: 1097 Vieira, 1297 660, 826, 828, 841, Abigail: Vieregg, Juliana: 745 Vievering, 723 285, 294, 344, Francesco: Vigorito, Carlo Gabriela: 146 Vila, Artur: 353 Vilar, Vildanova, 71 Viliani, Lorenzo: Luis: 1356 Villasenor, 401 Vincent, Aaron: 729 Vincent, Marandon: 1032 Vincent, Stephane: Stephane: 1032 Vink, 1053 Vink, Jacco: Jacco: 1299 1107, Vink, Salvatore: 1265 Viola, 1335 1221, 609, 952, Vincenzo: Vitale, 1335 Vitillo, Stefania: 1221, 356 Vittino, Andrea: 684 Vladimir, Vassiliev: 398 Vladimirov, Andrey: Vasileiadis, Georges: Georges: 127 Vasileiadis, Oleg: 561 Vasiliev, 1141 Valery: Vasiliev, Vasi Vasconcelos, DeboraVasconcelos, N. B.: 387

Van

736, 1052, 1337 1337 736, 1052,

74, 90, 92, 101, 103, 74, 90, 92, 101, 345, 943, 1010 1010 345, 943,

1328 Cagri: 1275 Ulusoy, 779 618, 654, 734, Michael: Unger, 1133 858, Federico: Urban, 1305 Martin: Urban, 1010 943, 345, Alfredo: Urbano, 841 826, 660, David: Urdaneta, 388 Uryson, Anna: 21, 19, Usoskin, Ilya: 105, 118 602 Valentina: Vacca, 1102, 1110 Valerio: Vagelli, 1253 1182, Rami: 1048, 1139, Vainio, 88 J.F.: Valdes-Galicia, 1285 Jose: Valdes-Galicia, Soelen, Brian: Soelen, Brian: 1197 Vliet Wiegert, Theresa: 1237 Van Vandenbroucke, Justin: 83, 899 Galina: Vankova-Kirilova, Gaia: 1092 Vanzo, Stephany: 1327 1213, Vargas, Bernardo: Vargas-Cardenas, 1285 Andrey: 784 Vargasov, Gary: 83, 828, 843, 954 Varner, Van Eijk, Daan: 968 Van 241 194, Eijndhoven, Nick: 193, Van 63, 1046, 1049, Eldik, Christopher: 1058, Van 1183 1219 588, 1040, Elewyck, Veronique: Van Valerius, Kathrin: 635 Valerius, Valiño, Inés: 380 Bertrand: 969 Vallage, 723 Piero: 285, 294, 424, Vallania, 320 Sofia: Vallecorsa, Valli, Mauro: 1331 294, 424, Laura: Valore, 1048 535, Eino: 118, 511, 534, Valtonen, Alfthan, Sebastian: 1182 Van Valdés-Galicia, J. F.: 120 J. F.: Valdés-Galicia, 911 Jose: Valdés-Galicia, 813, José Francisco: Valdés-Galicia, 1239, 1257 861 Jose Francisco: Valdés-Galicia, PoS(ICRC2015)1236

oger: 413 oger: 413 1257 1257 1052 Westphal, Andrew Andrew J.: 1287 Westphal, 176 58, Holger: Wetteskind, 954 White, Richard: 871 374, Daniel: Whiteson, Watari, Shinichi: 475 Watari, Jason: 954 Watson, Piotr: 773 Wawer, Roman:Wawrzaszek, 773 1295 Anna: 1284, Wawrzynczak, 702 97, 98, William: Webber, 610 303, 506, 556, Peter: Wegner, Liiu: 1114 Wei, 760 Yifeng: Wei, Weidinger, Matthias: 33 Jannis: 1329 Weimar, Andreas: 661 Weindl, Ori: 1202 Weiner, Matthias: 1131 Weinreuter, 506, 556, 874, 395, Amanda: Weinstein, 882, Weisgarber, Thomas: 732 Quirin: 1319 Weitzel, 451, 760 Sicheng: Wen, X.: 775 Wen, Wendell, R 1274 1234, 1140, Christoph: Weniger, Felix: 685, 1319 Werner, Klaus: 803 Werner, 829 Stefan: 147, 390, Westerhoff, Wang, M.-Z.: 1100 Wang, R.J.: 775 Wang, S.-H.: 1100 Wang, Xiaojie: 1042, 941, 985, 1079 894, 908, Wang, Xiaolian: 451, 760 Wang, Xilu: 752, 756 Wang, 15, 256 Xinjian: Wang, Xu: 150 Wang, Zhen: 842, 936 Wang, 1314 J. E.: 1264, Ward, 1092 E: 252, 329, 817, John Ward, John E.: 236 Ward, 1239, Kyoko: 88, 120, 769, 911, Watanabe,

Von

267 , Michal: 1074 1074 , Michal: ł 1222, 1242 1222, 1242 Vraeghe, Matthias: 544 544 Matthias: Vraeghe, 1044 Bojan: Vrsnak, Naoki: 297 Wada, Satoshi: 1283 Wada, 1314 C. J.: 1264, Waddington, 817 Jake: Waddington, Waegebaert, Vincent:127 Philipp: 303 Wagner, Voronin, Alexander: 561, 1229 1229 Alexander: 561, Voronin, Voronov, Sergey: 525 E.E.: 157 Vos, Etienne: 161, 333 Vos, Angelos: 1222 Vourlidas, 1092 Ievgen: 251, 309, 927, Vovk, Vrábe Rosenvinge, T.: 814 814 T.: Rosenvinge, 373, 394, 799, 821, Tycho: Rosenvinge, Von

Vogt, Adrian: 1119 Vogt, Vincent: 127 Voisin, Heinrich:Voelk, 113 Voge, Markus: Wagner, RobertWagner, M.: 62 1187 1071, 547, 553, Stefan: Wagner, Stefan J.: 614 Wagner, 1290 Scott: 824, 1101, 1154, Wakely, Matthew: 283 Walker, 1044 Carsten: 1026, Wallmann, Marius: 1112 Wallraff, Michael: 1039 Walter, 1179 665, 610, 236, 329, Roland: Walter, Charles: 559, 562 Wang, Chi: 312, 760 Wang, Chong: 833 Wang, Jinzhou: 1145 Wang, Völk, Heinrich J.: 696 Völk, Heinrich J.: Nikolay: 1168 Volkov, Achim: 1319 58, Vollhardt, Nikolay:Volodichev, 124 Alexander: 681 Volvach, 1139 Sebastian: Alfthan, Von 890 Peter: 717, 725, 860, Ballmoos, Von 759 757, Philip: Doetinchem, Von PoS(ICRC2015)1236 266, 419, 266, 419, 769, 842, 936 842, 936 ang: 71 ang: 71 620, 747, 1304 1304 620, 747, hohei: 396, 629 629 hohei: 396, ili: 100 862, 1300 862, 1300 Wood, Matthew: 46, 170, 209, 465, 469, 469, 46, 170, 209, 465, Matthew: Wood, 736, 1174 1249 W.: Wozniak, B.B.: 775 Wu, Chia-Hao: 1113 Wu, Di: 919, 1145 Wu, Han Rong: 285 Wu, 985, 941, 894, 901, 908, Hanrong: Wu, 1042, 1079 Xiangping: 630, 831 Wu, 1145 386, 610, 919, 381, Xin: Wu, 1083 746, Brian: Wundheiler, 1344 Arkadiusz: Wysokinski, 1001 Xiangli, Qian: 253 Xiao, Gang: Xiao, H.L.: 775 1306 Xie, Fu-Guo: Xie, Hong: 81 598 Xinhua, Bai: 544 Xu, Donglian: Xu, H.H.: 775 Xu, Siyao: 656 451 Xu, Zizong: 1041 Yoav: Yair, Istomin: 1359 Yakov, Elena: 1199 Yakovleva, Satoru:Yamada, 1045 Yamaguchi, Masashi: 957 297 Isao: 291, Yamamoto, 297 Saya: 291, 296, Yamamoto, Yamamoto, Tokonatsu: 58, 88, 513, 883, Katsuya: 160, 163, 1084, Yamazaki, 1106 Ryo: 316, 629 Yamazaki, Huirong: 270 Yan, Yanagita, S Yang, Di: 307 Yang, Guangli Yang, Haiyan: Yang, L Yang, Ruizhi: Roy: 1041 Yaniv,

1217, 1297 1217, 1297 767, 816, 860, 1283, 1331 1331 1283, 767, 816, 860,

958 857, 853, Kathryn: Whitman, 1002 Klaus: Wiebe, 955 800, Christopher: Wiebusch, 78 Wiecek, M.: 818 M.: 814, Wiedenbeck, 1314 E.: 1264, M. Wiedenbeck, 821 799, 817, 373, 394, Mark: Wiedenbeck, Wolinski, P.: 1249 P.: Wolinski, Helmut: 810 Wolters, Joshua: 247, 672 Wood, Wolfendale, Arnold W.: 159 Arnold Wolfendale, W.: Wochele, Doris: 338 Juergen: 338 Wochele, Clemens: 1162, 1328 Wohrmann, 1306 Wojaczynski, Rafal: David: 1319 Wolf, Orlen: 1054 Wolf, 135 134, Arnold: 133, Wolfendale, Wiedenbeck, Mark E.: 1287 E.: Mark Wiedenbeck, 72 Volkmar: Wieland, 1024 L.: Wiencke, 429, 570, 577, 585, Lawrence: 682, Wiencke, 553 Alicja: 547, Wierzcholska, 506 Stephan: Wiesand, 685 Henryk: Wilczynski, 240 Wild, Neville: 359 358, 60, Wilhelm, Alina: 46 Mark: Wilkinson, 783 346, Will, Martin: 308, 841 826, 660, Christopher: Williams, 1052 824, 965, David: Williams, 375 A.: 372, David Williams, 544 Dawn: Williams, 646 Philipp: Willmann, 767 Wills, Thomas: 288 Jörn: Wilms, 1047 Robert: Wimmer-Schwingruber, 557 Tobias: Winchen, 34, 111 Walter: Winter, 1338 536, 550, Ralf: 127, 506, Wischnewski, 845, 828, 841, 660, 826, Wissel, Stephanie: PoS(ICRC2015)1236

.Y.: 775 Zazayan, M.: 870 870 M.: Zazayan, 191 Zech, Andreas: 46 Hannes: Zechlin, 591 Zefi, Floriana: 1110 1102, Stefan: Zeissler, 568 Zeldovich, Mariya: 1228 106, Zelina, Peter: Zha, Min: 838 1225 Zhai, L.M.: 1201, 896 150, Sun: Zhandong, 984 168, Zhang, Deliang: 1145 Zhang, Fei: 831 630, Zhang, Jianli: Zhang, L Zhang, Li: 775 192 183, Zhang, Ming: 775 Zhang, S.N.: 941 885, 324, 833, Zhang, Shoushan: 775 Zhang, Y.J.: 936 831, 842, 630, Zhang, Yi: 1189 Zhang, Ying: 885 Zhang, Yong: 248 Zhang, Yu: 984 451, 760, Zhang, Yunlong: 1335 1221, Zhang, Zhan: 760 451, Zhang, Zhiyong: 150 Zhang, Zhongquan: Zhang Ji, Long: 870 1101 824, Zhao, Huyue: 416 Zhao, Jing: 40 Zhao, Jingzhou: 831 Zhao, Meng: 613 Zharaspayev, Temir: 324 315, Zhen, Cao: 1341 238, 737, 739, Zhou, Hao: Zhou, Xia: 96 256 15, 248, Zhou, Xunxiu: 285 Rong: Zhu, Feng 885 425, Zhu, Fengrong: 248 Zhu, Qingqi: 833 Zhu, Zhongyao: 245, 623 Valery: Zhukov, 1058 Alexander: 1049, Ziegler,

629, 1300 629, 1300 565, 780 oger: 782 oger: 782 1061, 1168, 1193, 1199, 1204, 1209, 1212 1212 1209, 1204, 1199, 1193, 1061, 1168,

Yashiro, Seiji: 81 Yashiro, Ygbuhay, R 1334 Tova: Yoast-Hull, 1045 Takaaki: Yokozawa, Shakarmamad: 619 Yormamadov, Kenji: 1082 Yoshida, 474 468, 420, Shigeru: Yoshida, 58, 265, 629, 856 Tatsuo: Yoshida, Yoshikoshi, Takanori: 836 Kawasaki: Yoshiya, 836 Takizawa: Yoshiyuki, 1341 239, 238, Patrick: Younk, Chunxu: 985 Yu, Peter: 684, 824 Yu, 1062 Yuriy: Yurkin, Alexey: 796 Yushkov, 596, 647, 1020, 1197, Victor: Zabalza, 1270, 1280 1017 Janusz: Zabierowski, Zaborov, Dmitry: 864 V.: Yanke, 1006, 1038 Victor: Yanke, 478, 489 Viktor: Yanke, 870 Yanke V., 941, 985, Zhiguo: 285, 894, 908, 1042, Yao, 1079 972, 997, 902, 652, 683, Igor: Yashin, 1037, 614 313, 607, Michael: Zacharias, 1329 Steffen: Zacharias, 1209 1168, Egor: 902, Zadeba, 46 Zaharijas, Gabrijela: 199 55, 66, Fabio: Zandanel, 1167 940, 203, 295, 360, Zanin, Roberta: 952 609, Mario: Zannoni, 622 Zantis, Franz-Peter: 699 Gaetano: Zappala, 810 227, 357, 382, Zas, Enrique: 245 N.: Zastrozhnova, 211 Natalya: 195, Zastrozhnova, 718 Victor: Zatsepin, 176 Marko: Zavrtanik, Ingyin: 1325 Zaw, PoS(ICRC2015)1236

Zietara, K.: 78 1319 65, 1179, Zietara, Krzysztof: 841 645, 660, 826, Zilles, Anne: 515 200, 188, Vladimir: Zirakashvili, 1064 Zitzer, Benjamin: Zizong,760 Xu: 556 329, 61, 202, 236, Zoli, Andrea: 1094 Zoll, Marcel: 699 Zorzi, Nicola: Mikhail: 1165 Zotov, 1335 1221, Zuccon, Paolo: 1346 Zundel, Zachary: 253 Zuo, Xiong: 1334 Ellen: Zweibel, 775 Ania: Zwolinska, PoS(ICRC2015)1236 985, 1042, 1079 985, 1042, 624, 634, 636,637, 636,637, 624, 634, 703, 365, 369, 474, 390,417, 463, 800, 806, 807, 848, 916, 924, 916, 924, 848, 800, 806, 807, 904, 908, 941,

627, 631, 635, 641, 646, 647, 666, 556, 603, 605, 610, 629, 665, 673, 674, 684, 673, 629, 665, 603, 605, 610, 556, 1397 1324, 1319, 1101, 1179, 1057, 1058, 1052, 939, 971, 979, 1008, 1016, 1024, 1016, 1024, 1008, 971, 979, 1025, 1074, 939, 3, 952, 958, 1102, 1110, 1206, 1218, 1218, 1206, 1110, 952, 958, 1102, 3, 1221, 1335, 978, 982, 1011, 1013, 1013, 982, 1011, 978, 1071, 1088, 1015, 1053, 590, 611, 625, 632, 639, 661, 682, 694, 717, 682, 694, 717, 632, 639, 661, 611, 625, 590, 847, 858, 863, 873, 858, 863, 906, 910, 1004, 847, 905, 877, 728, 798, 801, 804, 988, 1019,1050, 1081, 1114, 1081, 988, 1019,1050, 798, 801, 804, 728, 1014, 1034, 1040, 1120, 1127, 1151, 1175, 1186, 1151, 1175, 1127, 1120, 1034, 1040, 1014,

483, 488, 493, 588, 592, 348, 379, 348, 397, 402, 418, 529, 672, 692, 710, 708, 287, 320, 363, 334, 361, 209, 210, 236, 249, 252, 264, 265, 274, 276, 294, 274, 276, 294, 265, 252, 264, 210, 236, 249, 209, 557, 650, 712, 746, 751, 679, 704, 796, 797, 912, 849, 917, 961, 974, 989, 993, 1029, 1031 1031 993, 1029, 989, 961, 974, 917, 849, 581, 670, 785, 788, 881, 892, 1017 581, 670, 785, 788, 881, 892, 1065 1065 734, 1345 734, 1345

288,289, 290, 295, 308, 290, 309, 322, 330, 288,289, 410, 346,360, 687, 730, 794, 795, 741, 743, 786, 470, 564, 833, 885, 894, 896, 901, 470, 510, 594, 667, 669, 727, 790 790 667, 669, 727, 510, 594, Collaboration Index Collaboration 314, 498, 547, 553, 563, 565, 596, 565, 563, 553, 547, 314, 498, 1174, 1224, 1236, 1240, 1252, 1291, 1311, 1321 1321 1240, 1236, 1174, 1224, 1311, 1252, 1291, 959, 1002, 1063, 1090, 1094, 1112, 1116, 1122, 1158, 1208,1342, 1352, 1379 1379 1122, 1158, 1112, 1116, 959, 1002, 1090, 1094, 1352, 1063, 1208,1342, 1376 1376 716, 737, 739, 829, 722, 732, 866, 867, 1056, 1369 1296, 969, 986, 1077, 1211, 1219 1219 1211, 969, 986, 1077, 506, 465, 469, 424, 370, 372, 395, 305, 318, 329, 965, 882, 900, 954, 773, 824, 862, 699, 723, 736, 696, 928, 933, 742, 780, 938, 945, 962, 963, 973, 1361 1136, 1107, 1123, 1299, 1268, 1280, 1254, 1187, 1197, 1183, 544, 587, 490, 504, 508, 598, 642, 1018, 1022, 1095,1330, 1332, 1346, 1375 1375 1346, 1332, 1095,1330, 1018, 1022, 725, 735, 767, 816, 836, 860, 889, 914, 925, 929, 889, 914, 925, 816, 836, 860, 725, 735, 767, 1282, 1279, 1265, 1276, 1298, 1310 1075, 1155, 1165, 1171, 1198, 1283, 1292, 1302, 1309, 1364 1364 1198, 1171, 1165, 1075, 1155, 1302, 1309, 1283, 1292, 970, 1091, 1103, 1121, 1143, 1176, 1226, 1308, 1374 1374 1308, 1176, 1226, 1121, 1143, 1103, 970, 1091, 509, 541, 579, 608, 772, 783, 940, 1092, 1336 1336 608, 772, 509, 541, 579, 783, 940, 1092, FACT: 149, 172, 174, 298, 523, 1130, 1135, 1177, 1192 1192 1177, 1135, 523, 1130, 149, 172, 174, 298, FACT: 423, 364, 407, 86, 126, 128, 242, 258, FERMI: 545, GRAINE: 427, 869, 1003, 1009 1009 869, 1003, 427, GRAINE: H.E.S.S.: 277, 278, 279, 313,

IceCube & Pierre Auger & Telescope & Telescope IceCube & Pierre Auger Array: 520, 575, 85 311, 355, 385, 514, AMS: 51, 589, 609, ANTARES: 173, 351,366, 349, 243, 300, 306, 341, ANTARES: 501, 438, 481, 487, CALET: 430, CSES/EFD: 476 190 CSES/HEPD: 202, 204, 65, 78, 83, 62, 63, CTA: 46, 47, 58, 61, 282, 221, 255, 267, 184, 187, 193, IceCube: 125, ARA: 468, 1126 1126 ARA: 468, 838, 416, 425, 524, 250, 162, 248, ARGO-YBJ: 247,323, 237, 238, 239, 216, 217, 147, 35, HAWC: Telescope Array: 299, 414, 714, 765, 781, 837, 839, 781, 714, 765, Array: 299, 414, Telescope 1181 953, 426, 452, Tibet ASgamma: 655 TOTEM: 502 Tunka-Rex: 327, IceCube & VERITAS: 675 IceCube & VERITAS: 577, 585, 466, 560, 570, 393, 429, 432, JEM-EUSO: LAGO: 214, 815, 1109, 1146, 1190, 1191, 1213, 1238, 1256, 1289, 1327 1327 1190, 1146, 1109, LAGO: 214, 815, 1256, 1289, 1213, 1238, 1191, LHAASO: 285, 315, 324, 335, 464, 693 LOPES: 651, 59, 66, 170, 199, 203, 251, 271, MAGIC: KASCADE-Grande: 338, 340, 446, 458, KASCADE-Grande: 338, 340, 446, 580, 749, 935, 578, 748, 532, KM3NeT: 491, 937, 968, Pierre Auger & Telescope Array: 618, & Telescope Pierre Auger 1054, Pierre Auger: 145, 218, 380, 408, 473, 503, 507, 408, 473, 503, 145, 218, 380, Pierre Auger: