CURRICULUM VITAE

Paolo Desiati

January 2010

Personal Information

Citizenship: Italian US Permanent Resident

Work Addresses: IceCube, 222 W Washington Ave, Rm 5409, Madison, WI 53703 or University of Wisconsin, Department of Physics 1150 University Ave, Rm 4616 Madison WI 53706

Telephone: 608-890-0546 Fax: 608-262-2309 E-mail: [email protected] URL: http://icecube.wisc.edu/~desiati

Education

1996-99 Ph.D. Degree in Physics (Dottorato in Fisica), University of Rome La Sapienza, Roma, Italy

1994-95 Compulsory military service in the Italian army

1989-94 College Degree in Physics (Laurea in Fisica) at the University of Florence, Firenze, Italy

Desiati CV 0110 1

Tutoring Activities

Present and past collaboration with these individuals:

o Simona Toscano and Segev BenZvi: IceCube Research Associates. Determination of the properties of small angular scale anisotropy in the arrival direction of the cosmic rays in IceCube. This is a complementary work with respect Rasha Abbasi’s analysis of the large angular scale anisotropy of the cosmic rays. o Bradley Madajczyk: undergraduate physics student. Projects related to quality assurance of data used for the determination of the anisotropy in arrival direction of the Cosmic rays. o Kristin Rosenau: 2008 Summer REU undergraduate student (from Minnesota State University in Moorhead, MN). “Measurement of all-sky muon angular distribution in IceCube” (with Patrick Berghaus, Teresa Montaruli). o Patrick Berghaus: IceCube UW Post-Doc. o Raghunath Ganugapati: AMANDA UW graduate student. “Measurement of down-going muon flux with limit on muons from charm decay”. Graduated in 2009. o Mike Stamatikos: AMANDA University of Buffalo graduate student. “Search for neutrinos from gamma-ray bursts.” Graduated in 2005.

Mentored or supervised these individuals:

o Ian Rae: Computer Science graduate student. Design and implement simulation production web portal and optimize production efficiency on grid computing systems. Also collaborated with IceCube as undergraduate student, designed the simulation production web site. He worked in optimizing simulation production efficiency through grid systems such as Open Science Grid (OSG), using the Condor Directed Acyclic Graph Manager (DAGMan) to execute portions of the same simulation data processing in parallel across several nodes throughout the grid system.

o Ryan Birdsall: IceCube UW undergraduate student. Benchmark high-energy hadronic interaction models using atmospheric muon and neutrino experimental data. This project was presented as a poster at the APS Meeting in April 2008 and as a poster at the Neutrino 2008 Conference, Christchurch, New Zealand. Some work was also done and presented as a poster at the COSMO 2008 Conference, Madison, WI, U.S.A.

Desiati CV 0110 2

o You-Ren Wang: AMANDA UW graduate student. “Search for steady point sources with data collected in 2000-2002.” Graduated in 2005.

o Kimberly Moody-Chappelle: 2003 Summer REU undergraduate student (from University of Arizona). “Cosmic muon angular distribution and signatures for prompt component from charmed particles decay.”

o Karen Bland: 2002 Summer REU undergraduate student (from James Madison University in Harrisonburg, VA). “Measurement of the deconvoluted cosmic muon angular and depth-intensity distributions.” Presented this report to the American Astronomical Society Meeting in Atlanta, GA.

Currently supervising these individuals:

Juan Carlos Díaz-Vélez: Systems Programmer

o Design, develop and implement simulation production software tools for distributed computing systems, including a powerful, flexible system for monitoring, filtering and running simulation data. This versatile software package allows us to make use of heterogeneous computing resources in the Collaboration Institutions or of grid systems in US and Europe to produce and process simulation data. The same system is being adapted for experimental data processing, which can benefit as well of the large computing pool, which is currently available.

o A compressed data format (DST or Data Storage and Transfer) for the IceCube was proposed by Juan Carlos and myself to the Collaboration in order to store a restricted amount of info from all the collected events and to be able to ship the to northern hemisphere through the restricted satellite bandwidth. Designed by us and implemented by Juan Carlos, the DST is now part of the standard data format being used by physics analyses requiring large event statistics.

Oladipo Fadiran: Associate Systems Programmer

o Develop, implement and maintain IceCube data filtering processing code and documentation and processing database for monitoring and troubleshooting, and merge experimental and simulation data processing.

Desiati CV 0110 3

Rasha Abbasi: Research Associate

o Measurement of cosmic-ray anisotropy using IceCube experimental data. With the DST data format we can use the entire amount of events collected by IceCube to determine the 10-4 level anisotropy in arrival direction of the cosmic rays. This is the first determination of the large angular scale anisotropy in the southern hemisphere. The analysis, performed with the IC22 data collected in 2007, is being published in Astrophysical Journal Letters.

Dominick Rocco: Undergraduate Physics Student

o Study atmospheric seasonal temperature effects on IceCube muon intensity. Implemented the DST Sentinel, a software tool to extract the physics information from the DST data shipped north through the satellite. This tool promptly provides event rates and time coverage for physics analyses such as the anisotropy in arrival direction of the cosmic rays. Dominick used the same data to study the correlation of the cosmic ray-induced muon rate with the Antarctic polar seasonal atmospheric temperature variations. Such yearly variations are about 20% at the South Pole and exhibit also a shorter time scale variability that is highly correlated with the stratospheric temperature variations. Muon rate variations are used to determine such correlation at high statistical level and to provide a possible new tool to probe the stratospheric temperature variations over the Antarctic continent.

Craig Price: Undergraduate Physics Student

o Event selection optimization in the IC40 (2008) detector configuration for the purpose of achieving a high quality cosmic ray-induced muon event sample. This high quality event sample is being used in the extension of the cosmic ray anisotropy measurement using the larger IC40 detector configuration.

o Measurement of Compton-Getting effect in solar time. This project, currently under work, is aimed to explicitly measure the cosmic muon rate daily variation due to the Earth’s revolution motion around the Sun.

Patrick Meyer: Undergraduate Physics Student

o Projects related to quality assurance of data used for determination of the anisotropy in arrival direction of the Cosmic rays.

Desiati CV 0110 4

List of appointments, fellowships and grants

2006 Associate Researcher, University of Wisconsin – Madison

2003 Assistant Researcher, University of Wisconsin - Madison

2001 Research Associate, University of Wisconsin – Madison

CERN applied fellowship. 2-year fellowship sponsored by CERN for post-doctoral research in the LHCb experiment. Declined.

1999 Postdoctoral Research. 2-year Reimar Lüst Stipendium grant by Körber Stiftung of Hamburg, Germany, for post-doc research at the Deutsches Elektronen Synchrotron (DESY) in Zeuthen, Germany

9-month grant sponsored by the Fondazione Angelo della Riccia for graduate scientific research at the Nestor neutrino telescope site (Pylos, Greece). Declined.

1993 Undergraduate Research. 1-year fellowship sponsored by INFN (Italian Nuclear Physics National Institute) for undergraduate research at the Gran Sasso National Laboratory, Italy.

List of coordination activities

2009 - present Member of the IceCube Coordination Committee (ICC)

2006 - present Member of the IceCube Trigger, Filter and Transmission Board (TFT)

2006 - 2008 Coordinator of the Atmospheric Neutrino Physics Analysis Working Group for the IceCube Collaboration.

2003 - present Coordinator of IceCube simulation data production and processing operations.

2001 – 2003 Coordination of AMANDA Collaboration’s simulation production activity.

Desiati CV 0110 5

Synergistic Activities

o Member of interdisciplinary astronomy working group in the UW-Madison Department of Physics, aimed to address issues where astrophysics and astronomy have the potential to complement scientific development: origin of cosmic rays, properties of the local interstellar magnetic field, properties of jets in active galactic nuclei and gamma ray bursts. • The working group triggered valuable and developing discussions on the origin of the anisotropy in arrival direction of the cosmic rays with Prof. Ellen Zweibel (cosmic ray diffusion in local and interstellar magnetic fields) and Prof Alex Lazarian (magnetic reconnection and the role of the heliosphere in the low energy cosmic ray anisotropy).

o Collaboration with Prof. Ralf Benartz (UW-Madison Atmospheric and Oceanic Sciences) on the correlation between cosmic muon rate and Antarctic strato- spheric temperature profiles and on the monitoring of sudden stratospheric warming events using muon rate daily variations.

o Contributing to the usage and support, along with Juan Carlos Díaz Vélez, of the NSF funded GLOW computing system (Grid Laboratory of Wisconsin), of LONI (Louisiana Optical Network Infrastructure) and OSG (Open Science Grid) for the IceCube scientific analyses.

Appointments Timeline

6/05 to present – Associate Researcher at UW–Madison: IceCube

Active member of the IceCube collaboration and of the maintenance and operations team for the IceCube Observatory (http://icecube.wisc.edu); is directly involved in a wide range of activities aimed at making science goals possible with managing and improving the performance of some aspects of the IceCube operations.

Coordination Activity

• Coordinator of the IceCube Simulation Production operations. The generation and processing of simulation data is an essential part of the physics experimental data analysis. In order to provide sufficient simulation data required to achieve the scientific goals, I have created, along with Juan Carlos Díaz Vélez, the IceCube Distributed Computing Infrastructure, which

Desiati CV 0110 6

includes computing resources from the Collaboration Institutions in US (including LONI, a fast network connection infrastructure among universities and research institutes in Louisiana) and Europe (Germany, Sweden, and Belgium). It also includes Grid systems such as GLOW, OSG in the US, along with EGEE, GridEngine and SweGrid in Europe.

Currently we have a guaranteed access to about 2,200 nodes throughout the distributed infrastructure. Management of this distributed and heterogeneous system has been made possible through a custom-made software package (IceProd) designed and implemented by Juan Carlos Díaz Vélez based on our initial requirements.

IceProd efficiently allows coordination of multiple sites that share a single centralized database, which is used to manage the workload distribution and to monitor the status across multiple disconnected clusters and grids.

IceProd has a sophisticated job management that assists troubleshooting by means of the monitoring system. Management of the distributed computing infrastructure is finalized for the generation of simulation data needed by the IceCube collaboration’s physics analyses.

Coordination involves identification and collection of requirements and priorities from the collaboration, and preparation of a production plan, which is compatible with available computing and storage resources. Interface between simulation production coordination and the collaboration’s needs is done through the IceCube Coordination Committee.

The same software tools currently used for managing the distributed production and processing of simulation data, are being adapted for offline processing of the experimental data.

• Member of the IceCube Coordination Committee (ICC), which provides high- level coordination of IceCube Maintenance and Operation activity, of analyses and R&D. This committee addresses technical and resource issues and determines priorities in allocation of resources.

• Member of the IceCube Trigger, Filter and Transmission Board (TFT), which is the advisory committee for IceCube detector operations. Specifically it deals with the DAQ software and trigger settings, online filter settings and satellite transmission resources. The TFT Board is meant to be the interface between the IceCube collaboration, particularly its analysis working groups, the analysis coordinator, and the detector operations.

• Previously served as coordinator of the Atmospheric Neutrino physics working group (2006-2008). This appointment occurred during the initial phases of the IceCube data analyses, when the experimental tools for event reconstruction and energy estimation were formulated, and where the need to understand the IceCube apparatus’s response during its construction

Desiati CV 0110 7

phase was a pressing issue. During this appointment we published the first paper on measurement of atmospheric neutrinos with the IC9 detector stage (by John Pretz). The task of measuring the flux and energy spectrum of the atmospheric muons and neutrinos up to energy in excess of a few hundreds of TeV was also established. On one hand, this allows IceCube to access energies that are so far unexplored, with high event statistics, where the high-energy hadronic models need improvements, and where the decay of mesons with heavy quarks starts to be dominant. On the other hand, it is an experimental necessity to determine the measurable background at best, in order to probe the existence of high-energy neutrinos of extra-terrestrial origin.

Research Activity

• As proponent of the DST compressed data format, we are currently able to transfer to the Northern Hemisphere the full statistics for events collected by IceCube through its satellite connection, and to benefit from the event direction reconstruction and energy estimation done at the South Pole by the online event filter. This data sample allows us to perform all physics analyses that require the high event statistics of the cosmic ray-induced muon events.

• Initiated (with Rasha Abbasi and Juan Carlos Díaz Vélez) an analysis to measure the anisotropy in arrival direction of the cosmic rays. This is the first such observation in the Southern Hemisphere with high event statistics and in the energy range of 10 to 100 TeV in primary cosmic rays. Since the origin of the O(0.1%) anisotropy is still not understood, we are investigating the large angular scale of the anisotropy and the small angular scale, i.e. 10˚ - 30˚ (with Simona Toscano), and at different cosmic ray energies. This will allow us to probe the distance scale where the anisotropy is generated and how local magnetic fields act on cosmic ray propagation in our Galactic neighborhood. It also allows us to probe whether cosmic rays accelerated by nearby (i.e. ~100-300 parsec) and relatively young (i.e. 10,000 – 100,000 years old) supernovae could yield a small but measurable anisotropy in arrival direction. The first publication on the cosmic ray anisotropy measured with data collected by IC22 (2007) is about to be submitted to Astrophysics Journal Letters.

• Proponent (with Dominick Rocco) of the study of correlation between the cosmic muon event rate and Antarctic stratospheric temperature variations. Such correlation has been observed to be so strong that we are studying the possibility that cosmic-ray intensity variations can be used to probe atmospheric temperature changes over the course of a year. In particular, daily event rate variations closely follow atmospheric conditions, especially the so-called sudden stratospheric warming events. These occur when the stratosphere warms up very quickly in spring, due to the change in

Desiati CV 0110 8

properties of the ozone hole. A software tool implemented by Dominick Rocco allows us to measure daily event rates based on DST data transferred north through a satellite connection. This daily variation is analyzed against temperature variations, and a daily monitoring system is in the works to make this analysis more automatic.

• Benchmark high-energy hadronic interaction models by comparing modeled atmospheric muon and neutrino energy spectra with experimental measurements and with the atmospheric muon neutrino energy spectrum experimentally determined by AMANDA/IceCube (with Ryan Birdsall).

• Actively involved in development, implementation and testing of IceCube simulation software.

• Involved in development, testing and improvement, of experimental event filtering and reconstruction techniques currently deployed in online filtering and offline processing.

• Representing the IceCube collaboration at various international conferences and workshops.

Tutoring or Supervising Activity

• Supporting, mentoring and supervising students and post-doc in various experimental physics analyses. Support has and is being provided to collaborators in both UW-Madison and other US and international institutions.

• Organized weekly meetings with the UW-Madison group graduate students during the initial phases of IceCube’s data analyses, where analysis techniques, software and tools had to be developed and implemented (2006- 2007). These meetings focused on introducing students to IceCube’s data analysis by designing a common set of tools and by testing these with the help from other collaborators.

• Involved in organizing the UW-Madison analysis “bootcamp”, to disseminate analysis, reconstruction and simulation software to new students and post- docs across the Collaboration by providing them with hands-on experience.

Desiati CV 0110 9

6/03 to 6/05 – Assistant Researcher at UW–Madison: AMANDA

Coordination Activity

• Coordinator of the AMANDA Simulation Production effort. Designed and implemented a modular software package (based in perl) to generate simulation data in different computing clusters within the collaborating institutions. This tool allowed AMANDA to have a semi-automatic job submission system and a very basic job management for increasing the production efficiency.

Research Activity

• Actively involved in AMANDA experimental data analyses. Study strategies to probe contamination of heavy meson decay in the atmosphere. Search for high-energy extraterrestrial neutrinos from steady point sources (analysis of 2000-2002 data from AMANDA published in Phys. Rev. D with You-Ren Wang). Assisting in the search for high-energy neutrinos in correlation with Gamma Ray Bursts in the Northern Hemisphere, and in the search for high- energy neutrinos from diffused sources in the Universe.

Tutoring or Supervising Activity

• Supervision of graduate student You-Ren Wang in the search for high-energy neutrinos from steady point sources.

• Supervision of NSF-funded Research Experiences for Undergraduates (REU) students on projects related to cosmic ray-induced muon intensity.

9/01 to 5/03 – Research Associate at UW–Madison: AMANDA

Coordination Activity

• Began as coordinator of the simulation effort. Organized simulation-related software produced by the collaboration. Compared simulated and actual data to improve detector functionality, and to evaluate experimental systematic uncertainties.

Desiati CV 0110 10

Research Activity

• Participated in the study of Antarctic ice optical properties using high-quality, reconstructed, down-going–muon intensity. Compared these results with ice properties directly measured with in-situ light sources. Used these findings to improve the simulation’s agreement with experimental AMANDA data.

• Deconvolution of the cosmic ray-induced muon intensity as a function of the zenith angle and determination of the muon vertical intensity (ICRC 2001, 2003).

• Analysis of the AMANDA experimental data for the search of high-energy neutrinos of extraterrestrial origin.

Tutoring or Supervising Activity

• Supervision of NSF-funded Research Experiences for Undergraduates (REU) students on projects related to cosmic ray-induced muon intensity.

6/99 to 5/01 – 2-year Post-Doc Grant – Reimar Lüst Stipendium by Körber Stiftung at DESY-Zeuthen, Germany: AMANDA

Research Activity

• Developed the first working revision of an on-line Control Program for digitally controlled analog optical modules (dAOMs). Implemented in C++ using the QT Graphical User Interface toolkit and the MICO implementation of CORBA. Tested and installed software at South Pole Station the austral summer of 1999-2000 during a 5-week stay. An upgrade was installed the following summer (see http://icecube.wisc.edu/desiati/daom for more details).

• Analysis of data from the first 10 strings of AMANDA to measure angular distribution of atmospheric muons, using the improved detector array for the first time. Measurement of related depth intensity followed, which led to a better understanding of the detector array using the most intense source of events available: the cosmic muon flux.

• Improved simulation, using both data obtained and a better understanding of the optical properties of the ice.

Desiati CV 0110 11

• Performed analysis of high-voltage monitoring data from 1999, measured long-term gain variation of a photomultiplier tube (PMT) lighted with constant frequency-controlled LED pulses, and studied geomagnetic field effect on a single photoelectron ADC spectrum generated by a PMT.

1995 to 1998 – PhD - Università degli Studi di Roma “La Sapienza”

• Worked with Prof. Antonio Capone’s group on the NESTOR neutrino telescope R&D. This is an instrumentation to be submerged 3,000 meters below sea surface near Pylos, on the coast of southern Greece. Contributed to develop part of the data acquisition program (DAQ) for testing in the summer of 1998, and prepared the test. Collaborated with the electronics group on the acquisition hardware, which digitized analog signals arriving from photomultiplier tubes, as well as timing, synchronization and monitoring data. Used field-programmable gate arrays (FPGA), the Pamette board from DIGITAL, and an ALPHA-DIGITAL Workstation connected using PCI Bus. Collaborated with Dr. Mark Shand from DIGITAL with a C++-based firmware programming language to develop the first DAQ program revision.

• Thesis on event energy reconstruction with the NESTOR Neutrino telescope and determination of the sensitivity for the detection of high-energy neutrinos from Active Galactic Nuclei.

Desiati CV 0110 12

Publications in Refereed Journals

1. IceCube collaboration, Measurement of the anisotropy of cosmic ray arrival directions with IceCube, to be sumitted to Astrophys. J. Letters. Contributing author with Rasha Abbasi.

2. IceCube collaboration, Limits on a muon flux from Kaluza-Klein dark matter annihilations in the Sun from the IceCube 22-string detector, submitted to Phys. Rev. Lett.; astro-ph.CO/09204480.

3. IceCube collaboration , Measurement of sound speed vs. depth in South Pole ice for neutrino astronomy, submitted to Astropart. Phys.; astro-ph.IM/0909.2629.

4. IceCube collaboration, Extending the search for neutrino point sources with IceCube above the horizon, Phys. Rev. Lett. 103 221102 (2009); astro-ph.HE/ 09112338.

5. IceCube collaboration, Search for muon neutrinos from gamma-ray bursts with the IceCube neutrino telescope; astro-ph.HE/09072227.

6. IceCube collaboration, First neutrino point-source results from the 22-string IceCube detector, Astrophys. J. Lett. 701 L47 (2009); astro-ph.HE/09052253.

7. IceCube collaboration, Search for high-energy muon neutrinos from the “naked-eye” GRB 080319B with the IceCube Neutrino Telescope, Astrophys. J. 701 1721(2009); astro-ph.HE/09020131.

8. IceCube collaboration, Determination of the atmospheric neutrino flux and searches for new physics with AMANDA-II, Phys. Rev. D 79 102005 (2009); astro-ph.HE/09020675.

9. IceCube collaboration, Limits on a muon flux from neutralino annihilations in the Sun with the IceCube 22-string detector, Phys. Rev. Lett. 102 201302 (2009); astro-ph.CO/ 09022460.

10. IceCube collaboration, The IceCube Data Acquisition System: Signal capture, digitization, and timestamping, Nucl. Instrum. and Methods A 601 294 (2009); physics.ins-det/08104930.

11. IceCube collaboration, Solar energetic particle spectrum on 13 December 2006 determined by IceTop, Astrophys. J. Lett. 689 L65-L68 (2008); astro- ph/08102034.

12. IceCube collaboration, Performance of the initial year partial IceCube array and the sensitivity of the full IceCube detector on search for extremely-high energy neutrinos, submitted to Phys. Rev. D. (2009)

Desiati CV 0110 13

13. IceCube collaboration, Search for point sources of high-energy neutrinos with final data from AMANDA-II, Phys. Rev. D 79 062001 (2009); astro- ph/08091646.

14. IceCube collaboration, Search for ultra–high-energy neutrinos with AMANDA-II, Astrophys. Jour. 675 2 1014 (2008); astro-ph/07113022.

15. IceCube collaboration, Multiyear search for a diffuse flux of muon neutrinos with AMANDA-II, Phys. Rev. D 76 042008; erratum ibid 77 089904 (E); astro- ph/07051315.

16. IceCube and IPN collaborations, The search for muon neutrinos from Northern Hemisphere gamma-ray bursts with the Antarctic Muon and Neutrino Detector Array (AMANDA), Astrophys. J. 674 357 (2008); astro-ph/07051186.

17. IceCube collaboration, Detection of atmospheric muon neutrinos with the IceCube 9-string detector, Phys. Rev. D 76 027101 (2007); astro- ph/07051781.

18. IceCube collaboration, Search for neutrino-induced cascades from gamma-ray bursts with AMANDA, Astrophys. Jour. 664 397 (2007); astro-ph/0702265.

19. IceCube collaboration, Five years of searches for point sources of astrophysical neutrinos with the AMANDA-II neutrino telescope, Phys. Rev. D 75 102001 (2007); astro-ph/0611063.

20. (with J. Lundberg, et al.), Light tracking for glaciers and oceans: Scattering and absorption in heterogeneous media with Photonics, Nucl. Instrum. Meth. A 581 619 (2007); astro-ph/0702108. Contributing author.

21. IceCube collaboration, Limits on the high-energy gamma and neutrino fluxes from the SGR 1806-20 giant flare of December 27th, 2004 with the AMANDA-II detector, Phys. Rev. Lett. 97 221101; astro-ph/0607233 (2006).

22. (with Lu F., et al.), Signal Probability estimation with penalized likelihood method on weighted data, Statistica Sinica 16, 459 (2006).

23. IceCube collaboration, First year performance of the IceCube Neutrino Telescope, Astrop. Phys. 26 155-173; astro-ph/0604450 (2006).

24. IceCube collaboration, On the selection of AGN neutrino source candidates for a source stacking analysis with neutrino telescopes, Astrop. Physics 26 282-300 (2006); astro-ph/0609534.

25. IceCube collaboration, Limits on the muon flux from neutralino annihilations at the center of the Earth with AMANDA, Astropart. Phys. 26 129-139 (2006).

Desiati CV 0110 14

26. AMANDA collaboration, Optical properties of deep glacial ice at the South Pole, J. Geophys. Res. 111 D13203 DOI:10 1029 / 2005JD006687 (2006).

27. AMANDA collaboration, Limits to the muon flux from neutralino annihilations in the Sun with the AMANDA detector, Astropart. Phys. 24 459-466 (2006) astro- ph/0508518.

28. IceCube collaboration, The IceCube prototype string in AMANDA, Nuclear Instruments and Methods A 556 169-181 (2006); astro-ph/0601397.

29. AMANDA collaboration, Search for extraterrestrial point sources of high energy neutrinos with AMANDA-II using data collected in 2000-2002, Phys. Rev. D 71 077102 (2005); astro-ph/0412347. Corresponding author.

30. AMANDA collaboration, Flux limits on ultra–high-energy neutrinos with AMANDA-B10, Astropart. Phys. 22 339-353 (2005).

31. IceCube Collaboration, A deep high-resolution optical log of dust, ash and stratigraphy in South Pole glacial ice, Geophys. Res. Lett. 32 L21815 1-4 (2005).

32. AMANDA collaboration, Search for neutrino-induced cascades with AMANDA, Astropart. Phys. 22 127-138 (2004).

33. AMANDA & SPASE collaborations, Measurement of the cosmic ray composition at the Knee with the SPASE-2/AMANDA-B10 detectors, Astropart. Phys. 20 565 (2004).

34. AMANDA & SPASE collaborations, Calibration and survey of AMANDA with the SPASE detectors, Nucl. Instr. Meth. A 522 347-359 (2004).

35. AMANDA collaboration, Muon track reconstruction and data selection techniques in AMANDA, Nucl. Instr. Meth. A 524 169-194 (2004).

36. IceCube collaboration, Sensitivity of the IceCube detector to astrophysical sources of high-energy muon neutrinos, Astropart. Phys. 20 507 (2004).

37. AMANDA collaboration, Search for extraterrestrial point sources of neutrinos with AMANDA-II, Phys. Rev. Lett. 92 071102 (2004); astro-ph/0309585.

38. AMANDA collaboration, Limits on diffuse fluxes of high-energy extraterrestrial neutrinos with the AMANDA-B10 detector, Phys. Rev. Lett. 90 251101 (2003).

39. AMANDA collaboration, Search for point sources of high-energy neutrinos with AMANDA, Astrophys. J. 583 1040 (2003); astro-ph/0208006.

Desiati CV 0110 15

40. AMANDA collaboration, Search for neutrino-induced cascades with the AMANDA detector, Phys. Rev. D 67 012003 (2003); astro-ph/0206487.

41. AMANDA collaboration, Limits to the muon flux from WIMP annihilation in the center of the Earth with the AMANDA detector, Phys. Rev. D 66 032006 (2002); astro-ph/0202370.

42. AMANDA collaboration, Observation of high-energy atmospheric neutrinos with AMANDA, Phys. Rev. D 66 012005 (2002); astro-ph/0205109.

43. AMANDA collaboration, Search for supernova neutrino bursts with the AMANDA detector, Astropart. Phys. 16 345-359 (2002); astro-ph/0105460.

44. AMANDA collaboration, Observation of high-energy neutrinos using Cherenkov detectors embedded deep in Antarctic ice, Nature 410 441-443, (2001).

45. (with F. Ameli, et al.), Data acquisition electronics for NESTOR Experiment: Projects and tests, Nucl. Instrum. Meth. A 423 146 (1999). Contributing author.

46. LVD collaboration, Neutrino-induced and atmospheric single muon fluxes measured over five decades of intensity by LVD at Gran Sasso Laboratory, Astropar. Phys. 3 311-320 (1994).

Desiati CV 0110 16

Invited Talks

1. IceCube and Deep Core: selected results and perspectives, Workshop on Next Generation Nucleon decay and Neutrino Detectors (NNN 09), Estes Park, CO U.S.A. (2009)

2. Neutrino Astronomy with the IceCube Observatory: implications for Astroparticle Physics (IceCube collaboration, P. Desiati, et al), in Proc. of the Vulcano Workshop 2008, Vulcano (ME), Italy (2008) and arXiv:0812.4004

3. Measurement of the atmospheric neutrino flux with AMANDA-II and IceCube, (IceCube collaboration, P. Desiati, et al), in Proc. of 10th International Conference On Topics In Astroparticle And Underground Physics (TAUP 2007), J.Phys.Conf.Ser.120:062007, 2008 and arXiv:0712.3524, Sendai, Japan (2007)

4. Atmospheric muon neutrino analysis with IceCube (IceCube collaboration, P. Desiati, et al), in Proc. of the 30th International Cosmic Ray Conference, Merida, Mexico (2007), for John Pretz

5. IceCube: Toward a km3 Neutrino Telescope (IceCube collaboration, P. Desiati, et al) in Proc. of the XX European Cosmic Ray Symposium, Lisbon, Portugal (September 2006); astro-ph/0611603.

6. Neutrino Astronomy at the South Pole (IceCube collaboration, P. Desiati, et al), 20th Intl. Workshop on Weak Interactions and Neutrinos (WIN05), Delphi, Greece, (2005).

7. Neutrino Astronomy at the South Pole: Latest Results from AMANDA-II (IceCube collaboration, P. Desiati, et al), in Proc. of “New Frontiers at RHIC: Physics Opportunities and Accelerator Challenges,” Particles and Nuclei Intl. Conf. (PANIC 2005), Santa Fe, New Mexico and Satellite Meeting, Upton, New York, (AIP Conf. Proc., 2006) 842 983-985; astro-ph/0601571 (2006).

8. Neutrino Astronomy and Cosmic Rays at the South Pole : Latest Results from AMANDA-II and Perspectives for IceCube (AMANDA and IceCube collaborations, P. Desiati, et al), in Proc. of the XIX European Cosmic Ray Symposium, Firenze, Italy (2004); Intl Jour of Mod Phys A 20 29 6919-6923 (2005).

9. Contributor to Condor-Empowered Science at UW-Madison, Condor Week 2003 Workshop, Madison, Wisconsin (2003).

10. Neutrino Astronomy at the South Pole: Status of the AMANDA Experiment (AMANDA collaboration, P. Desiati, et al) in Proc of the 17th Les Rencontres de Physique de la Vallee D’Aoste: “Results and Perspectives in Particle Physics,” La Thuile, Italy, ed by M. Greco (Frascati, INFN, 2003) 45; astro-ph/0306536.

Desiati CV 0110 17

11. Analysis of Atmospheric Muons with AMANDA (AMANDA collaboration, P. Desiati, et al) in Proc of the 2nd Workshop on Methodical Aspects of Underwater/Ice Neutrino Telescopes (MAU/INT), Hamburg, Germany (2001), ed by R. Wischnewski (DESY, 2002) 23.

12. Atmospheric Muon Angular Distribution at the South Pole, Deutsche Physikalische Gesellschaft, Bonn, Germany (2001).

Invited Lectures, Seminars and Colloquia

1. Galactic Cosmic Ray anisotropy: origin, implications and the role of IceCube, NPAC Seminar (Nuclear, Particle, Astro, Comso Forum), Department of Physics, University of Wisconsin – Madison, November 12th (2009).

2. Rivelazione dei neutrini al Polo Sud, Outreach seminar in a Florence High School, Florence, Italy (2007)

3. Neutrino Astronomy and IceCube Performance, Seminar at the Laboratori Nazionali del Sud, Catania, Italy, (2006)

4. Neutrino Astronomy at the South Pole – Latest Results from AMANDA and the IceCube Era, Seminar at the Phyics Department of Università degli Studi di Roma la Sapienza, Rome, Italy (2005).

5. Astronomia di Neutrini al Polo Sud tra AMANDA e IceCube, Seminar at the Physics Department of Università degli Studi di Firenze, Firenze, Italy (2003).

Other Publications

1. Study of Muon Events with the LVD Experiment at the Gran Sasso Laboratory, Paolo Desiati, DFF 243-01-1996, Dipartimento di Fisica, Università degli Studi di Firenze (1996).

2. Participation of DESY-Zeuthen in the IceCube Project, A. Biron, et al, DESY- PRC-01-01 (2001).

3. Proposal to Upgrade the MIPP Experiment, MIPP collaboration, FERMILAB- PROPOSAL-0960 (2006); hep-ex/0609057

Desiati CV 0110 18

Conference Proceedings (All ICRC listings are at the end of this section)

1. The Depth-Intensity Distribution of Single and Double Muon Events Measured by the LVD Underground Experiment in the Gran Sasso Laboratory (LVD collaboration, H. Tang, et al) in Proc. of the Intl. Symposium on Cosmic Ray Physics in Tibet, Lhasa, Tibet (1994).

2. Present Status of the LVD Experiment in the Gran Sasso Laboratory (LVD collaboration), in Proc. of Baksan Particles and Cosmology, Baksan, Russia (1993), Bull. Russ. Acad. Sci. Phys. 58 2063 (1994).

3. Results of the LVD Experiment at Gran Sasso (LVD collaboration), in Proc. of Workshop on Frontier Objects in Astrophysics and Particle Physics (Vulcano Workshop 1994), Vulcano, Italy, ed by F. Giovannelli and G. Mannocchi, Ital. Phys. Soc. 451 (1995).

4. Studying Energetic Muons at the LVD Setup (LVD collaboration), in Proc. of the Intl. Conf. on Cosmic Rays, Moscow, Russia (1996), ed by G.V. Kulikov, Bull. Russ. Acad. Sci., Phys. Ser. 61 457 (1997).

5. NESTOR: A Deep Sea Neutrino Telescope for the Mediterranean (NESTOR collaboration), in Proc. of XVIII Intl. Symposium on Lepton-Photon Interactions (LP 97), Hamburg, Germany, ed by A. De Roeck and A. Wagner, World Scientific (1998).

6. Status of NESTOR, a Deep Sea Neutrino Telescope in the Mediterranean (NESTOR collaboration), in Proc. of 16th Intl. Workshop on Weak Interactions and Neutrinos (WIN 97), Capri, Italy, Nucl. Phys. B (Proc. Suppl.) 66 247 (1998).

7. The NESTOR Project (NESTOR collaboration), in Proc. of Baikal School for Young Researchers on the Astrophysics and Microworld Physics (BSYPH 98), Irkutsk City, Russia, ed by V. Naumov, Y. Parfenov, and S. Sinegovsky, Irkutsk U. Publishing House 105 (1998).

8. From AMANDA to IceCube: Current and Future High Energy Neutrino Telescopes at the South Pole (AMANDA collaboration, T. Miller, et al) in Proc. of the 23rd Johns Hopkins Workshop on Current Problems in Particle Theory: Neutrinos in the Next Millenium, Baltimore, Maryland (1999), ed. by G. Domokos and S. Kovesi-Domokos, World Scientific 47 (2000).

9. The AMANDA dAOM Project — An Example of a Distributed DAQ and Slow Control System (P. Desiati, et al) in Proc. of the Intl. Workshop on Data Acquisition Systems for Neutron Experimental Facilities (DANEF 2000), Dubna, Russia, JINR E10-2001-11.

10. The AMANDA Neutrino Detector – Status Report (AMANDA collaboration, R.

Desiati CV 0110 19

Wischnewski, et al) in Proc. of Sixth Topical Seminar on Neutrino and Astro- Particle Physics, San Miniato, Italy (1999), ed by G. Bruni, et al, Nucl. Phys. B (Proc. Suppl) 85 141 (2000).

11. Observation of High Energy Atmospheric Neutrinos with AMANDA (AMANDA collaboration, A. Karle, et al) in Proc of the 7th Conference on Intersections Between Particle and Nuclear Physics (CIPANP 2000), Quebec City, Quebec, ed by Z. Parsa and W. Marciano, AIP Conf. Proc. 549 823-827 (2000).

12. Status of the Neutrino Telescope AMANDA: Monopoles and WIMPS (AMANDA collaboration, W. Rhode, et al) in Proc. of the Third Intl. Conf. on Dark Matter in Astro and Particle Physics (Dark 2000), Heidelberg, Germany, ed by H.V. Klapdor-Kleingrothaus, Springer-Verlag 699-706 (2001).

13. Recent Results from AMANDA (AMANDA collaboration, D. Cowan, et al) in Proc. of the Division of Particle Physics and Fields of the American Physical Society (DPF2000), Columbus, Ohio, Intl Jour Mod Phys A 16 S1C 1013 (2001).

14. Results from the AMANDA High-Energy Neutrino Detector (AMANDA collaboration, S. Barwick, et al) in Proc. of the 19th Intl. Conf. on Neutrino Physics and Astrophysics—Neutrino 2000, Sudbury, Ontario, Nucl. Phys. B (Proc. Suppl) 91 423 (2001); astro-ph/0009242.

15. Selected Recent Results from AMANDA (AMANDA collaboration, D. Cowen et al) in Proc. of the 30th Intl. Conf. on High-Energy Physics (ICHEP 2000), Osaka, Japan, ed by C.S. Lim and T. Yamanaka, World Scientific II 965-968 (2001).

16. WIMP Searches with AMANDA-B10 (AMANDA collaboration, J. Edsjö, et al) in Proc. of the 3rd Intl. Workshop on the Identification of Dark Matter (IDM 2000), York, England, ed by N.J.C. Spooner and V. Kudryavtsev, World Scientific 499- 505 (2001); astro-ph/0012285.

17. Particle Astrophysics with the AMANDA Neutrino Telescope (AMANDA collaboration, C. Spiering, et al) in Proc. of Quantum Theory Centenary: Symposium 4: The Foundations of Quantum Physics before 1935, Berlin, Germany (2000), Annalen der Physik 10 131-132 (2001).

18. Results from the AMANDA High-Energy Neutrino Detector (AMANDA collaboration, A. Biron, et al), in Proc. of the Intl. Workshop on Neutrinos and Physics beyond the Standard Model: NANPino (Non-Accelerator New Physics in Neutrino Observations), Dubna, Russia (2000), Part. Nucl. Lett. 104 7 (2001).

19. Results from AMANDA (AMANDA collaboration, A. Karle et al) in Proc. of the 9th Intl. Symposium on Neutrino Telescopes, Venice, Italy, ed by M. Baldo-Ceolin, Padua U. 2 569 (2001).

20. Results from AMANDA (AMANDA collaboration, G.C. Hill et al) in Proc. of XXXVI Rencontres de Moriond, Electroweak Interactions and Unified Theories, Les

Desiati CV 0110 20

Arcs, France (2001); astro-ph/0106064.

21. Physics results from the AMANDA Neutrino Detector (AMANDA collaboration, M. Kowalski, et al) in Proc of the Intl. Europhysics Conf. on High-Energy Physics (HEP 2001), Budapest, Hungary, Jour of High Energy Phys (Conf. Proc.) hep2001/207; hep-ph/0112083.

22. Initial Results from AMANDA (AMANDA collaboration, T. de Young, et al) in Proc. of the 21st Rencontres de Moriond Workshop on Very High-Energy Phenomena in the Universe, Les Arcs, France, NAP-T4 (2001).

23. Analysis of Atmospheric Muons with AMANDA (AMANDA collaboration, P. Desiati, et al) in Proc of the 2nd Workshop on Methodical Aspects of Underwater/Ice Neutrino Telescopes (MAU/INT), Hamburg, Germany (2001), ed by R. Wischnewski (DESY, 2002) 23.

24. Potential of AMANDA-II in HE Neutrino Astrophysics (AMANDA collaboration, S. Barwick, et al) in Proc of the 2nd Wkshp. on MAU/INT, Hamburg, Germany (2001), ed by R. Wischnewski (DESY, 2002) 57.

25. Performance Studies for the IceCube Detector, (AMANDA collaboration, M. Leuthold, et al) in Proc of the 2nd Wkshp. on MAU/INT, Hamburg, Germany (2001), ed by R. Wischnewski (DESY, 2002) 65.

26. Search for UHE Neutrinos with AMANDA (AMANDA collaboration, S. Hundertmark, et al) in Proc of the 2nd Wkshp. on MAU/INT, Hamburg, Germany (2001), ed by R. Wischnewski (DESY, 2002) 69.

27. Monte Carlo Event Generation in AMANDA (AMANDA collaboration, S. Hundertmark, et al) in Proc. of the 2nd Wkshp. on MAU/INT, Hamburg, Germany (2001), ed by R. Wischnewski (DESY, 2002) 105.

28. Cascade Reconstruction in AMANDA (AMANDA collaboration, M. Kowalski, et al) in Proc of the 2nd Wkshp. on MAU/INT, Hamburg, Germany (2001), ed by R. Wischnewski (DESY, 2002) 135.

29. Pattern Recognition in AMANDA (AMANDA collaboration, P. Steffen, et al) in Proc of the 2nd Wkshp. on MAU/INT, Hamburg, Germany (2001), ed by R. Wischnewski (DESY, 2002) 131.

30. AMANDA collaboration, Recent Results from AMANDA, Int. J. Mod. Phys. A 16 S1C 1013 (2001).

31. Physics Results from the AMANDA-B10 Neutrino Telescope (AMANDA collaboration, A. Hallgren, et al) in Proc of Topics in Astroparticle and Underground Physics

32. (TAUP 2001), Assergi, Italy, Nucl. Phys. B (Proc. Suppl) 110 507 (2002).

Desiati CV 0110 21

33. The AMANDA-II Neutrino Telescope (AMANDA collaboration, R. Wischnewski, et al) in Proc of TAUP 2001, Assergi, Italy, Nucl. Phys. B (Proc. Suppl) 110 510 (2002).

34. Scientific Goals of the IceCube Neutrino Detector at the South Pole (IceCube collaboration, A. Goldschmidt, et al) in Proc of TAUP 2001, Assergi, Italy, Nucl. Phys. B (Proc. Suppl) 110 516 (2002).

35. Results from AMANDA (AMANDA collaboration), Mod. Phys. Lett. A 17 2019 (2002).

36. Atmospheric Neutrinos, WIMPS and Monopoles: Physics with the AMANDA Neutrino Telescope (AMANDA collaboration, W. Rhode, et al) in Proc. of the 4th Intl. Heidelberg Conf. on Dark Matter in Astro and Particle Physics (DARK 2002), Cape Town, South Africa, ed by H.V. Klapdor-Kleingrothaus and R.D. Viollier Springer Verlag 531-541 (2002).

37. Application of Bayes’s Theorem to Muon Track Reconstruction in AMANDA (AMANDA collaboration, T. de Young, et al) in Proc. of the Conf. on Advanced Statistical Techniques in Particle Physics, Durham, England, ed by M.R. Whalley and L. Lyons, IPPP 235-241 (2002).

38. Physics and Operation of the AMANDA-II High Energy Neutrino Telescope (AMANDA collaboration, S. Barwick, et al) in Proc of the SPIE Intl. Symposium on Astronomical Telescopes and Instrumentation, Waikoloa, Hawaii, ed by P. Gorham, Particle Phys. Instrn. 4858 (2002); astro-ph/0211269.

39. Time Calibration of AMANDA: Three Variations of a Theme of To (AMANDA collaboration, K.D. Hanson, et al) in Proc of the 10th Intl. Conf. on Calorimetry in High Energy Physics (CALOR 2002), Pasadena, California, ed by R.Y. Zhu, World Scientific (2002) 452-458.

40. Calorimetry (GeV-TeV) in AMANDA and IceCube Telescopes (AMANDA/ IceCube collaborations, K. Lamoreaux, et al) in Proc of the 10th Intl. Conf. on Calorimetry in High Energy Physics (CALOR 2002), Pasadena, California, ed by R.Y. Zhu, World Scientific (2002).

41. The AMANDA Search for High Energy Neutrinos from Gamma-Ray Bursts (AMANDA collaboration, R. Hardtke, et al) in Proc of Gamma Ray Burst and Afterglow Astronomy: “A Workshop Celebrating the First Year of the HETE Mission” (2001), Woods Hole, Massachusetts, AIP Conf. Proc. 662 150-152 (2003).

42. Results from the AMANDA Telescope (AMANDA collaboration, O. Bouhali, et al), in Proc. of XVI International Conference on Particles and Nuclei (PaNic02), Osaka, Japan (2002), Nucl. Phys. A 721 545-548 (2003).

Desiati CV 0110 22

43. Recent Results from AMANDA II (AMANDA collaboration, K. Hanson, et al) in Proc. of the 31st Intl. Conf. on High Energy Physics (ICHEP02), Amsterdam, Netherlands, ed by S. Bentvelsen, et al, North-Holland 126-128 (2003).

44. Results from the Antarctic Muon and Neutrino Detector Array (AMANDA collaboration, D.F. Cowen, et al) in Proc of the XXth Intl. Conf. on Neutrino Physics and Astrophysics (Neutrino 2002), Munich, Germany, ed by F. von Feilitzsch & N. Schmitz, Nucl. Phys. B (Proc. Suppl) 118 371-379 (2003); astro- ph/0211264.

45. IceCube – The Next Generation Neutrino Telescope at the South Pole (IceCube collaboration, A. Karle et al) in Proc of the XXth Intl. Conf. on Neutrino Physics and Astrophysics, Munich, Germany (2002), ed by F. von Feilitzsch and N. Schmitz, Nucl. Phys. B (Proc. Suppl) 118 388-395 (2003); astro-ph/0209556.

46. Search for Neutrino-Induced Cascades with the AMANDA II Detector (AMANDA collaboration, M. Kowalski, et al) in Proc of the XXth Intl. Conf. on Neutrino Physics and Astrophysics, Munich, Germany (2002), ed by F. von Feilitzsch and N. Schmitz, Nucl. Phys. B (Proc. Suppl) 118 513 (2003).

47. The Digital Optical Module – How IceCube Will Acquire Data (IceCube and AMANDA collaborations, R.G. Stokstad, et al) in Proc of the XXth Intl. Conf. on Neutrino Physics and Astrophysics, Munich, Germany (2002), ed by F. von Feilitzsch and N. Schmitz, Nucl. Phys. B (Proc. Suppl) 118 514 (2003).

48. Neutrino Astronomy at the South Pole: Status of the AMANDA Experiment (AMANDA collaboration, P. Desiati, et al) in Proc of the 17th Les Rencontres de Physique de la Vallee D’Aoste: “Results and Perspectives in Particle Physics,” La Thuile, Italy, ed by M. Greco, Frascati, INFN 45 (2003); astro-ph/0306536.

49. Search for Neutrino Point Sources with the AMANDA Telescope (AMANDA collaboration, O. Bouhali et al), in Proc. of the Intl. Workshop on Astroparticle and High-Energy Physics (AHEP-2003), Valencia, Spain, ed by M. Hirsch, et al, Jour of High Energy Physics (Conf. Proc) 10 (2003).

50. Results from the AMANDA Neutrino Telescope (AMANDA collaboration, S. Hundertmark, et al) in Proc of the 10th Intl. Workshop on Neutrino Telescopes, Venice, Italy, ed by M. Baldo-Ceolin, Nucl. Phys. (Proc. Suppl.) 138 167-170 (2003).

51. Recent Results from the AMANDA Experiment (AMANDA collaboration, P. Niessen, et al), in Proc. of 38th Rencontres de Moriond on Electroweak Interactions and Unified Theories, Les Arcs, Savoie, France (2003); astro- ph/0306209.

52. Exotic Particle Detection with the AMANDA Detector (AMANDA collaboration, M. Kowalski, et al) in Proc. of the 23rd Intl. Conf. on Physics in Collision (PIC 2003), Zuethen, Germany, SLAC eConf C030626:FRAP10 369 (2003).

Desiati CV 0110 23

53. IceCube: A Multipurpose Neutrino Telescope (IceCube collaboration, K. Rawlins, et al), in Proc. of 3rd Intl. Workshop for Comprehensive Study of the High Energy Universe  Toward Very High Energy Particle Astronomy (VHEPA-3), Tokyo, Japan, Jour of the Physical Soc of Japan (2003).

54. Particle Astronomy from Antarctica (AMANDA and IceCube collaborations, P.O. Hulth, et al) in Proc. of IAU XXV General Assembly, Sydney, Australia, ed by O. Engvold and M.G. Burton (ASP Conf. Series, 2003) 13.

55. Results from the AMANDA Neutrino Telescope (AMANDA collaboration, F. Halzen, et al) in Proc. of the 4th Tegernsee Intl. Conf. on Particle Physics beyond the Standard Model “Beyond the Desert,” Tegernsee, Germany, ed by H. Klapdor-Kleingrothaus, Springer Proc. in Phys. (2003).

56. Results from the AMANDA Neutrino Telescope (AMANDA collaboration, E. Bernardini, et al) in Proc of the Very Large Volume Neutrino Telescope (VLVνT) Workshop, “Technical Aspects of a Very Large Volume Neutrino Telescope in the Mediterranean Sea,” Amsterdam, Netherlands, ed by E. De Wolf, NIKHEF 17-20 (2003).

57. Muon Track Reconstruction and Data Selection Techniques in AMANDA (AMANDA collaboration, C.H. Wiebusch, et al) in Proc of the VLVνT Workshop, “Technical Aspects of a Very Large Volume Neutrino Telescope in the Mediterranean Sea,” Amsterdam, Netherlands, ed by E. De Wolf, NIKHEF 129- 133 (2003).

58. The IceCube Project (IceCube collaboration, C. Spiering, et al) in Proc of the VLVνT Workshop, “Technical Aspects of a Very Large Volume Neutrino Telescope in the Mediterranean Sea,” Amsterdam, Netherlands, ed by E. De Wolf, NIKHEF 21-25 (2003); astro-ph/0404090.

59. Optimizing the Limit Setting Potential of a Multivariate Analysis Using the Bayes Posterior Ratio (with G.C. Hill, F. Lu and G. Wahba) in Proc. of Statistical Problems in Particle Physics, Astrophysics and Cosmology (PHYSTAT 2003), Menlo Park, California WEJT2004 218-221 (2003).

60. Latest Results of AMANDA (AMANDA collaboration, W. Rhode, et al) in Proc of the International Europhysics Conference on High-Energy Physics (HEP 2003), Aachen, Germany, Euro. Phys. Journal C 33 (Suppl) 1 s953-s955 (2004).

61. The IceCube Neutrino Telescope (IceCube collaboration, S. Yoshida et al), in Proc. of Intl. Symposium on Cosmology and Particle Astrophysics (CosPA 2003), Taipei, Taiwan, ed by W-Y. Paunchy Hwang, et al, Mod. Phys. Lett. A 19 1099- 1106 (2004).

62. Method for Detecting Neutrinos from Internal Shocks in GRB Fireballs with AMANDA (AMANDA collaboration, M. Stamatikos, et al) in Proc. of 2003 GRB

Desiati CV 0110 24

Conference, “30th Anniversary of GRB Discovery,” Santa Fe, New Mexico, AIP Conf. Proc. 727 146-149 (2004).

63. The AMANDA Search for High Energy Neutrinos from Gamma Ray Bursts (AMANDA collaboration, R. Hardtke, et al) in Proc. of 2003 GRB Conference, “30th Anniversary of GRB Discovery,” Santa Fe, New Mexico, AIP Conf. Proc. 727 158-161 (2004).

64. AMANDA: Status and Latest Results (AMANDA collaboration, M. Ribordy et al), in Proc. of 39th Rencontres de Moriond on Electroweak Interactions and Unified Theories, La Thuile, Italy (2004); hep-ex/0405035.

65. Results from the AMANDA Neutrino Telescope (AMANDA collaboration, C.P. de los Heros, et al), in Proc. of 5th Cosmic Ray Intl. Seminar: “GZK and Surroundings” (CRIS 2004), Catania, Italy, ed by C. Aramo, et al, Nuclear Physics B 136 (Proc. Suppl.) 85-92.

66. Design and Status of IceCube (IceCube collaboration, M. Kestel et al), in Proc. of 10th Conference on Instrumentation, Vienna, Austria, Nuclear Instruments and Methods A 535 139-142 (2004); astro-ph/0405008.

67. Results from the AMANDA Detector (AMANDA collaboration, P. Olbrechts et al) in Proc. of Cracow Epiphany Conference on Astroparticle Physics, Cracow, Poland, Acta Phys. Polon. B 35 1919-1931 (2004).

68. Status of the IceCube Neutrino Observatory (IceCube collaboration, G. Sullivan, et al) in Proc. of 2nd VERITAS Symposium on TeV Astrophysics of Extragalactic Sources, Chicago, Illinois (2003), New Astronomy Reviews 48 519-525 (2004).

69. Results from the AMANDA Neutrino Telescope (AMANDA collaboration, P. Steffen, et al), in Proc. of 8th Intl. Wkshp. on Topics in Astroparticle and Underground Physics (TAUP 2003), Seattle, Washington, Nucl. Phys. B (Proc. Suppl) 138 167 (2005).

70. The IceCube Neutrino Telescope (IceCube collaboration, S. Yoshida, et al) in Proc. of TAUP 2003, Seattle, Washington, Nucl. Phys. B (Proc. Suppl) 138 179 (2005).

71. The Search for Muon Neutrinos from Gamma-Ray Bursts with AMANDA B-10 and AMANDA-II (AMANDA collaboration, K. Kuehn, et al), in Proc. of TAUP 2003, Seattle, Washington, Nucl. Phys. B (Proc. Suppl) 138 171 (2005).

72. IceCube Education and Outreach: Bringing Neutrinos to the Secondary School Classroom (IceCube collaboration, J. Madsen, et al) in Proc. of TAUP 2003, Seattle, Washington, Nucl. Phys. B (Proc. Suppl) 138 458 (2005).

73. IceCube: The Cubic-Kilometer Neutrino Telescope at the South Pole (IceCube collaboration, A.R. Fazely, et al) in Proc. of Coral Gables Conf.: Launching of La

Desiati CV 0110 25

Belle Epoque in High Energy Physics and Cosmology, Fort Lauderdale, Florida (2003), ed by T. Curtright, et al, World Scientific (2005); astro-ph/0406125.

74. New Results from the Antarctic Muon and Neutrino Detector Array (AMANDA collaboration, K. Woschnagg, et al), in Proc. of 21st Intl. Conf. on Neutrino Physics and Astrophysics (Neutrino 2004), Paris, France, ed by J. Dumarchez, et al, Nucl. Phys. B (Proc. Suppl) 143 343-350 (2005); astro-ph/0409423.

75. The IceCube Neutrino Observatory (IceCube collaboration, O. Botner, et al), in Proc. of 21st Intl. Conf. on Neutrino Physics and Astrophysics (Neutrino 2004), Paris, France, ed by J. Dumarchez, et al, Nucl. Phys. B 143 (Proc Suppl) 367- 370 (2005).

76. Neutrino Astronomy and Cosmic Rays at the South Pole  Latest Results from AMANDA-II and Perspectives for IceCube (AMANDA and IceCube collaborations, P. Desiati, et al), in Proc. of the XIX European Cosmic Ray Symposium, Firenze, Italy (2004); Intl Jour of Mod Phys A 20 29 6533-7068 (2005).

77. The AMANDA Neutrino Telescope (AMANDA collaboration, A. Silvestri, et al) in Proc. of the Meeting of the Division of Particles and Fields of the American Physical Society for the Year 2004 (DPF2004), Riverside, California, Intl Jour Mod Phys A 20 3096 (2005).

78. Status of the IceCube Neutrino Telescope (IceCube collaboration, T. de Young, et al) in Proc of the Meeting of the Division of Particles and Fields of the American Physical Society for the Year 2004 (DPF2004), Riverside, California, Intl Jour of Modern Phys A 20 3160 (2005).

79. Results of the AMANDA Detector (AMANDA collaboration, P. Olbrechts, et al) in Proc of the 32nd Intl Conf. on High Energy Physics (ICHEP’04), Beijing, China, ed by H. Chen, et al, World Scientific 440-443 (2005).

80. IceTop Status in 2004 (IceCube collaboration, T. Stanev, et al), in Proc. of Neutrino Oscillation Workshop (NOW2004), Conca Specchiula, Italy (2004), ed by P. Bernardini, et al, Nucl. Phys. B (Proc. Suppl) 145 327-330 (2005); astro- ph/0501046.

81. New Results from the AMANDA Neutrino Telescope (AMANDA collaboration, E. Bernardini, et al), in Proc. of NOW2004, Conca Specchiula, Italy, ed by P. Bernardini, et al, Nucl Phys B (Proc. Suppl) 145 319-322 (2005).

82. Recent Results from the AMANDA-II Neutrino Telescope (AMANDA collaboration, A. Gross, et al), 40th Rencontres de Moriond on Electroweak Interactions and Unified Theories, La Thuile, Italy (2005); astro-ph/0505278.

83. Multi-Messenger Studies with AMANDA/IceCube: Observations and Strategies (IceCube collaboration, E. Bernardini et al), in Proc. of the 7th Workshop on “Towards a Network of Atmospheric Cherenkov Detectors” (Cherenkov 2005),

Desiati CV 0110 26

Palaiseau, France; astro-ph/0509396.

84. From AMANDA to IceCube (IceCube collaboration, M. Ribordy, et al), in Proc. of Vth Intl. Conf. on Non-Accelerator New Physics (NANP 05), Dubna, Russia(2005), Phys. Atom. Nucl. 69 1899-1907 (2006); astro-ph/0509322

85. Exploring the High-Energy Neutrino Universe from the South Pole—Results from AMANDA and Status of IceCube (AMANDA/IceCube collaborations, K. Woschnagg, et al) in Proc. of the 19th Rencontres de Physique de la Vallée d’Aoste, La Thuile, Italy, ed by M. Greco, Frascati, INFN 89-106 (2005).

86. Getting There: From AMANDA to IceCube (AMANDA collaboration, C.P. de los Heros, et al) in Proc. of the Intl. Europhysics Conf. on High Energy Physics (HEP2005), Lisbon, Portugal, PoS HEP2005:023 (2006).

87. Exploring the Neutrino Universe with AMANDA and IceCube (IceCube collaboration, D. Hardtke, et al) in Proc. of the 20th Lake Louise Winter Institute: Fundamental Interactions, Lake Louise, Alberta (2005), ed by A. Astbury, et al, World Scientific 169-173 (2006).

88. Astroparticle Physics with Neutrinos (IceCube collaboration, L. Köpke, et al) in Proc. of the XXVth Conf. on Physics in Collision, Prague, Czech Republic, ed by V. Simák, et al, AIP Conf. Series 815 95-104 (2005).

89. Design and Performance of the IceCube Electronics (IceCube collaboration, R. Stockstadt, et al) in Proc. of the 11th LCH Electronics Workshop, Heidelberg, Germany, 4 (2005).

90. AMANDA and IceCube: Neutrino Astronomy at the South Pole (IceCube collaboration, I. Taboada, et al) in Proc. of the 9th Intl. Conf. on Topics in Astroparticle and Underground Physics (TAUP 05), Zaragoza, Spain, Journ of Phys Conf Series 39 438-440 (2006).

91. Neutrino Physics at the South Pole—Recent Results from the AMANDA Experiment (IceCube collaboration, J.K. Becker, et al) in Proc. of the 9th ICATPP Conf. on Astroparticle, Particle, and Space Physics, Detectors and Medical Physics Applications, Como, Italy 132 (2005).

92. Design, Production and First Results from the IceCube Digital Optical Module (IceCube collaboration, O. Tarasova, et al) in Proc. of the 9th ICATPP Conf. on 93. Astroparticle, Particle, and Space Physics, Detectors and Medical Physics Applications, Como, Italy 297 (2005).

94. Exploring the Neutrino Universe with AMANDA and IceCube (IceCube collaboration, Hardtke et al.) in Proc. of the 20th Lake Louise Winter Institute: Fundamental Interactions, Lake Louise, Alberta (2005), ed. by A. Astbury, et al., World Scientific 169-173 (2006).

Desiati CV 0110 27

95. From AMANDA to IceCube (IceCube collaboration, Ribordy et al.), in Proc. of the Vth Intl. Conf. on Non-Accelerator New Physics, Dubna, Russia (2005), Phys. Atom. Nucl. 69 1899 (2006); astro-ph/0509322

96. AMANDA and IceCube: Neutrino Astronomy at the South Pole (IceCube collaboration, Taboada et al.) in Proc. of the 9th Intl. Conf. on Topics in Astroparticle and Underground Physics (TAUP 05), Zaragoza, Spain, Jour. of Phys. Conf. Series 39 438-440 (2006).

97. First Results from IceCube (IceCube collaboration, Klein et al.), in Proc. of Particles and Nuclei International Conf. (PANIC 2005), Santa Fe, New Mexico, AIP Conf. Proc. 842 971-976 (2006); astro-ph/0601269.

98. Neutrino Astronomy at the South Pole: Latest Results from AMANDA-II (IceCube collaboration, P. Desiati, et al), in Proc. of “New Frontiers at RHIC: Physics Opportunities and Accelerator Challenges,” Particles and Nuclei Intl. Conf. (PANIC 2005), Santa Fe, New Mexico and Satellite Meeting, Upton, New York, AIP Conf. Proc. 842 983-985 (2006); astro-ph/0601571.

99. Systematic Uncertainties in the Analysis of Data from a Neutrino Telescope: The AMANDA Case (IceCube collaboration, E. Bernardini, et al) in Proc. of the 2nd Intl. Workshop on Very Large Volume Neutrino Telescopes (VLVnT2), Catania, Italy, Nucl. Instrum. and Methods A 567 474 (2006).

100. Status of IceCube in 2005 (IceCube collaboration, A. Karle, et al) in Proc. of VLVnT2, Catania, Italy, Nucl. Instrum. and Methods A 567 438 (2006); astro- ph/0608139.

101. AMANDA: Selected Physics Results (IceCube collaboration, E. Bernardini, et al) in Proc. of VLVnT2, Catania, Italy, Nucl. Instrum. and Methods A 567 418 (2006).

102. A New Search Paradigm for Correlated Neutrino Emission from Discrete GRBs using Antarctic Cherenkov Telescopes in the Swift Era (IceCube collaboration, M. Stamatikos, et al) in Proc. of the 16th Annual Astrophysics Conf. in Maryland: “Gamma Ray Bursts in the Swift Era,” Washington, DC, ed by S.S. Holt, et al, AIP Conf. Proc. 836 599-604 (2006); astro-ph/0602481.

103. The Search for Neutrinos from Gamma Ray Bursts with AMANDA (IceCube and IPN collaborations, Kyler Kuehn, et al) in Proc. of the 16th Annual Astrophysics Conf. in Maryland, Washington, DC, ed by S.S. Holt, et al, AIP Conf. Proc. 836 616-619 (2006).

104. From AMANDA to IceCube (IceCube collaboration, P.O. Huth, et al), in Proc. of 3rd Intl. Workshop on Neutrino Oscillations in Venice (NO-VE): 50 years after the Neutrino Experimental Discovery, Venice, Italy 437-448 (2006); astro- ph/0604374.

Desiati CV 0110 28

105. Neutrino Detectors in Ice: Results and Perspectives (IceCube collaboration, A. Bouchta, et al), in Proc. of 20th Rencontres de Physique de la Vallee d’Aoste, La Thuile, Italy (2006); astro-ph/0606235.

106. Neutrino Astronomy at the South Pole (IceCube collaboration, P. Toale, et al), in Proc. of XLIst Rencontres de Moriond on Electroweak Interactions and Unified Theories, La Thuile, Italy (2006); astro-ph/0607003.

107. Very High Energy Phenomena in the Universe: Results from the AMANDA Neutrino Telescope and Status of the IceCube Detector (AMANDA collaboration, S. Hundertmark, et al), in Proc. of XLIst Rencontres de Moriond on Electroweak Interactions and Unified Theories, La Thuile, Italy (2006).

108. Recent Results from the AMANDA II Neutrino Telescope (AMANDA collaboration, A. Gross, et al), in Proc. of XLIst Rencontres de Moriond on Electroweak Interactions and Unified Theories, La Thuile, Italy, Mar 2006.

109. IceCube – Neutrino Astronomy at South Pole (IceCube collaboration, S. Hundertmark, et al), in Proc. of 2nd Scandinavian NeutrinO Workshop (SNOW 2006), Stockholm, Sweden, Physica Scripta T127 103-104 (2006).

110. IceCube: The State of the Art (IceCube collaboration, T. Montaruli, et al), in Proc. of the Vulcano Workshop 2006: Frontier Objects in Astrophysics and Particle Physics, Vulcano, Italy (May 2006), ed by F. Giovannelli and G. Mannocchi, Ital. Phys. Soc., Editrice Compositori, Bologna, Italy 93; astro- ph/0608140.

111. From AMANDA to IceCube: Neutrino Astronomy at the South Pole (IceCube collaboration, K. Filimonov, et al) in Proc. of the 9th Conference on the Interactions of Particle and Nuclear Physics (CIPANP 2006), Rio Mar Beach, Puerto Rico, ed by T.M. Liss, AIP Conference Series 870 (2007).

112. Results from the AMANDA neutrino telescope (IceCube collaboration, J.D. Zornoza, et al) in Proc. of CRIS06, Catania, Italy, Nucl. Phys. B Proc. Suppl. 165 196 (2007).

113. Review on Neutrino Telescopes (IceCube collaboration, T. Montaruli, et al) in Proc. of CRIS06, Catania, Italy, Nucl. Phys. B Proc. Suppl. 165 161 (2007).

114. The EHE Neutrino Search Capability of the IceCube (IceCube collaboration, A. Ishihara, et al) in Proc. of CRIS06, Catania, Italy Nucl. Phys. B Proc. Suppl. 165 200 (2007); astro-ph/0611794.

115. The IceCube Neutrino Telescope (IceCube collaboration, M. Krasberg, et al) in Proc. of the XII Intl. Conf. on Calorimetry in High Energy Physics (CALOR2006), Chicago, Illinois (2006), AIP Conf. Proc. 867 209.

116. Upper Limits on Neutrino Fluxes from Point-Like Sources with AMANDA-II

Desiati CV 0110 29

(IceCube collaboration, M. Ackermann, et al) in Proc. of Multi-Messenger Approach to High Energy Gamma-Ray Sources, 3rd Workshop on the Nature of Unidentified High-Energy Sources, Barcelona, Spain, Astrophys. and Space Sci. 309 421 (2007).

117. Cosmic Neutrinos from Sources of Galactic and Extragalactic Cosmic Rays (IceCube collaboration, F. Halzen, et al) in Proc. of Multi-Messenger Approach to High Energy Gamma-Ray Sources, 3rd Workshop on the Nature of Unidentified High-Energy Sources, Barcelona, Spain, Astrophys. and Space Sci. 309 407(2007); astro-ph/0611915.

118. Neutrino Astronomy with IceCube and AMANDA (IceCube collaboration, G.C. Hill, et al) in Proc. of Neutrino 2006, Santa Fe, New Mexico, J. Phys. Conf. Series); astro-ph/0611773.

119. The IceCube Neutrino Observatory: Latest Results on the Search for Point Sources and Status of IceCube Construction (IceCube collaboration, T. Castermans and A. Karle, et al) in Proc. of Astronomy 2006 – IAU XXVIth General Assembly, Prague, Czech Republic, ed. by K. van der Hucht (Cambridge University Publishing, 1007)).

120. Neutrino Astronomy and Astrophysics with IceCube and AMANDA (IceCube collaboration, A. Olivas, et al) in Proc. of ICHEP 06, Moscow, Russia (World Scientific, Singapore, 2007).

121. The Search for UHE Neutrinos with AMANDA-II (IceCube collaboration, L. Gerhardt, et al) in Proc. of SUSY06, Irvine, California, ed. by J. Feng, AIP Conf. Series 903 662 (2007).

122. The IceCube Neutrino Telescope and Its Capability to Search for the EHE Neutrinos (IceCube collaboration, S. Yoshida, et al) in Proc. of SUSY06, Irvine, ed. by J. Feng, AIP Conf. Series 903 626 (2007).

123. Search for Dark Matter with the AMANDA Detector (IceCube collaboration, C. De Clercq, et al) in Proc. of SUSY06, Irvine, California, ed. by J. Feng, AIP Conf. Series 903 603 (2007).

124. Neutralino Dark Matter Searches with Neutrino Telescopes: AMANDA Results and IceCube Prospects (IceCube collaboration, Hubert et al.), in Proc. of the 7th UCLA Symposium on Sources and Detection of Dark Matter and Dark Energy in the Universe, Marina del Rey, California, Nucl. Phys. B Proc. Suppl. 173 87 (2007).

125. Implications of AMANDA Neutrino Flux Limits (IceCube collaboration, J. Becker, et al) in Proc. of TeV Particle Astrophysics (TeV II), Madison, Wisconsin (2006), ed. by F. Halzen, et al., J. Phys. Conf. Series 60 219 (2007); astro- ph/0611597.

Desiati CV 0110 30

126. Tau Neutrinos in IceCube (IceCube collaboration, D.F. Cowen, et al) in Proc. of TeV II, Madison, WI (2006), ed. by F. Halzen, et al., J. Phys. Conf. Series 60 227 (2007); astro-ph/0611597.

127. Ice Cube – First Results (IceCube collaboration, J. Dumm, et al) in Proc. of TeV II, Madison, WI (2006), ed. by F. Halzen, et al., J. Phys. Conf. Series 60 334 (2007); astro-ph/0611597.

128. Air Showers in a Three-Dimensional Array: Recent Data from IceCube/IceTop (IceCube collaboration, X. Bai, et al) in Proc. of TeV II, Madison, WI (2006), ed. by F. Halzen, et al., J. Phys. Conf. Series 60 327 (2007); astro-ph/0611597.

129. Construction status and future of the IceCube neutrino observatory (IceCube collaboration, K. Hanson, et al) in Proc. of TeV II, Madison, WI (2006), ed. by F. Halzen, et al., J. Phys. Conf. Series 60 227 (2007); astro-ph/0611597.

130. Multi-Year Search for a Diffuse Flux of Muon Neutrinos with AMANDA-II (IceCube collaboration, J. Hodges, et al) in Proc. of TeV II, Madison, WI (2006), ed. by F. Halzen, et al., J. Phys. Conf. Series 60 337 (2007); astro- ph/0611597.

131. Searches for Neutrinos from Gamma-Ray Bursts with AMANDA-II and IceCube (IceCube collaboration, B. Hughey, et al) in Proc. of TeV II, Madison, WI (2006), ed. by F. Halzen, et al., J. Phys. Conf. Series 60 340 (2007); astro- ph/0611597.

132. IceCube: Multiwavelength Search for Neutrinos from Transient Point Sources (IceCube collaboration, E. Resconi, et al) in Proc. of TeV II, Madison, WI (2006), ed. by F. Halzen, et al., J. Phys. Conf. Series 60 223 (2007); astro- ph/0611597.

133. High-Energy Gammas from the Giant Flare of SGR 1806-20 of December 2004 in AMANDA (IceCube collaboration, J.D. Zornoza, et al) in Proc. of TeV II, Madison, WI (2006), ed. by F. Halzen, et al., J. Phys. Conf. Series 60 340 (2007); astro-ph/0611597.

134. IceCube: Toward a km3 Neutrino Telescope (IceCube collaboration, P. Desiati, et al) in Proc. of the XX European Cosmic Ray Symposium, Lisbon, Portugal (2006); astro-ph/0611603.

135. Status of IceCube and Future Plans (IceCube collaboration, Williams et al.), in Proc. of the Workshop on Next-Generation Nucleon Decay and Neutrino Detectors (NNN06), Seattle, Washington, 2006, ed. by R. J. Wilkes, AIP Conf. Proc. 944 51 (2007).

136. The IceCube Neutrino Observatory – Design and Performance (IceCube collaboration, Walter et al.) in Proc. of 10th Topical Seminar on Innovative Particle and Radiation Detectors, Siena, Italy (2006), ed. by P.S. Marrocchesi et

Desiati CV 0110 31

al., Nucl. Phys. B Proc. Suppl. 172 13 (2007).

137. Results Achieved with AMANDA (IceCube collaboration, Xu et al.) in Proc. of the XIV International Symposium on Very–High-Energy Cosmic-Ray Interactions (ISVHECRI 2006), Weihai, China, ed. by K.S. Cheng et al., Nucl. Phys. B Proc. Suppl. 175 401 (2008).

138. IceCube: Performance, Status, and Future (IceCube collaboration, Rott et al.) in Proc. of ISVHECRI 2006, Weihai, China, ed. by K.S. Cheng et al., Nucl. Phys. B Proc. Suppl. 175 409 (2008); astro-ph/0611726.

139. The IceCube/IceTop Air Shower Experiment (IceCube collaboration, Bai et al.) in Proc. of ISVHECRI 2006, Weihai, China, ed. by K.S. Cheng et al., Nucl. Phys. B Proc. Suppl. 175 415 (2008).

140. IceCube, the World’s Largest Dark Matter Detector (IceCube collaboration, Landsman et al.) in Proc. of the 6th International Workshop on the Identification of Dark Matter (IDM 2006), Island of Rhodes, Greece, 2006, ed. by M. Axenides, G. Fanourakis, & J. Vergados, World Scientific, Singapore A4 450 (2007); astro-ph/0612239.

141. Testing Lorentz Invariance Using Atmospheric Neutrinos and AMANDA-II (IceCube collaboration, Kelley et al.) in Proc. of the 1st Workshop on Exotic Physics with Neutrino Telescopes, Uppsala, Sweden, 2006, ed. by C.P. de los Heros, Uppsala University, 131 (2007); astro-ph-0701333.

142. Exotic Physics with IceCube (IceCube collaboration, Hardtke et al.) in Proc. of the 1st Workshop on Exotic Physics with Neutrino Telescopes, Uppsala, Sweden, 2006, ed. by C.P. de los Heros, Uppsala University, 89 (2007); also in astro- ph/0701333.

143. Neutralino Searches with AMANDA and IceCube – Past, Present and Future (IceCube collaboration, Hubert et al.) in Proc. of the 1st Workshop on Exotic Physics with Neutrino Telescopes, Uppsala, Sweden, 2006, ed. by C.P. de los Heros, Uppsala University, 39 (2007); astro-ph/0701333.

144. AMANDA and IceCube: News and Neutrino Analyses (IceCube collaboration, Rawlins et al.) in Proc. of Colliders to Cosmic Rays 2007 (C2CR07), Granlibakken, Lake Tahoe, AIP Conference Proceedings 928 69 (2007).

145. IceCube: Neutrino Telescope at the South Pole (IceCube collaboration, Seo et al.) in Proc. of the 21st Les Rencontres de Physique de la Vallee D’Aoste, Results and Perspectives in Particle Physics, La Thuile, Aosta, Italy, Frascati Physics Series XLIV 75 (2007).

146. Neutrino Physics with IceCube (IceCube collaboration, Blaufuss et al.) in Proc. of the XII Intl. Workshop of Neutrino Telescopes, Venice, Italy, ed. by M. Baldo Ceolin, University of Padua 77 (2007).

Desiati CV 0110 32

147. Indirect Searches for Dark Matter with IceCube (IceCube collaboration, Rott et al.), in Proc. of TAUP07, Sendai, Japan, ed. by K. Inoue, A. Suzuki, and T. Mitsui, Jour. Phys. Conf. Series 120 022009 (2008); astro-ph/07123524.

148. First Results of the IceCube Observatory on High Energy Neutrino Astronomy (IceCube collaboration, Montaruli et al.), in Proc. of TAUP07, Sendai, Japan, ed. by K. Inoue, A. Suzuki, and T. Mitsui, Jour. Phys. Conf. Series 120 062009 (2008); astro-ph/07123524.

149. Measurement of the Atmospheric Neutrino Flux with AMANDA-II and IceCube (IceCube collaboration, Desiati et al.), in Proc. of TAUP07, Sendai, Japan, ed. by K. Inoue et al, Jour. Phys. Conf. Series 120 052038 (2008); astro- ph/07123524.

150. Identification of Extremely High-Energy, Contained Neutrino Events with the IceCube Observatory (IceCube collaboration, Ono et al.), in Proc. of TAUP07, Sendai, Japan, ed. by K. Inoue et al, Jour. Phys. Conf. Series 120 0622029 (2008); astro-ph/07123524.

151. Diffuse High-Energy Neutrino Searches in AMANDA-II and IceCube: Results and Future Prospects (IceCube collaboration, Hoshina et al.), in Proc. of TAUP07, Sendai, Japan, ed. by K. Inoue et al, Jour. Phys. Conf. Series 120 062007 (2008); astro-ph/07123524.

152. IceTop – Cosmic Ray Physics with IceCube (IceCube collaboration, Waldenheimer et al.), in Proc. of the 1st Roma Intl. Conf. on Astroparticle Physics (RICAP’07), Nucl. Instrum. and Methods A 588 130 (2008); astro- ph/08022540.

153. IceCube: Recent Results and Prospects (IceCube collaboration, DeYoung et al.), in Proc. of RICAP’07, Nucl. Instrum. and Methods A 588 92 (2008).

154. General Performance of the IceCube Detector and the Calibration Results (IceCube collaboration, Inaba et al.), in Proc. of the Intl. Workshop on New Photon Detectors (PD07), Kobe, Japan, Proc. of Science 031 (2007).

155. Search for Neutrinos from Gamma-Ray Bursts with AMANDA and IceCube (IceCube collaboration, Kappes et al.), in Proc. of the 6th Intl. Workshop on New Worlds in Astroparticle Physics, Faro, Portugal, 2007.

156. Search for Neutralino Dark Matter with the AMANDA Neutrino Telescope and Prospects for IceCube (IceCube collaboration, Rizzo et al.), in Proc. of the 6th Intl. Heidelberg Conference on Dark Matter in Astro and Particle Physics, Sydney, Australia, 2007.

157. Particle Astrophysics from the Cold: Results and Perspectives of IceCube (IceCube collaboration, de los Heros et al.), in Proc. of the 1st AFI Symposium

Desiati CV 0110 33

“From Vacuum to the Universe”, University of Innsbruck, Austria, 2007; astro- ph/08020147.

158. Search for Neutrinos from GRBs with AMANDA and IceCube (IceCube collaboration, Becker et al.), in Proc. of Gamma Ray Bursts 2007, Santa Fe, New Mexico, AIP Conf. Procs. 1000 241-244 (2008).

159. Search for Transient Emission of Neutrinos in IceCube (IceCube collaboration, Bernardini et al.), in Proc. of the 80th Annual Scientific Mtg. of the Astronomische Gesellschaft jointly with the 5th Bienneal Workshop on Astroparticle Physics: Cosmic Matter, Wurzburg, Germany (Astronomische Nachrichten, 2007) 328 7 A138.

160. The MAGIC/IceCube Target of Opportunity Program test run (IceCube collaboration, Ackermann et al.), in Proc. of the 80th Annual Scientific Mtg. of the Astronomische Gesellschaft, Wurzburg, Germany (Astronomische Nachrichten, 2007) 328 7 A128.

161. Searches for Point-Like Sources of Cosmic Neutrinos with IceCube (IceCube collaboration, Lauer et al.), in Proc. of the 80th Annual Scientific Mtg. of the Astronomische Gesellschaft, Wurzburg, Germany (Astronomische Nachrichten, 2007) 328 7 A127.

162. Extension of IceCube at Lower Energy: the Use of AMANDA as Nested Array and Future Perspectives (IceCube collaboration, J. Becker et al.), in Proc. of the 80th Annual Scientific Mtg. of the Astronomische Gesellschaft, Wurzburg, Germany (Astronomische Nachrichten, 2007) 328 7 A133.

163. Astroparticle Physics with the AMANDA Neutrino Telescope (IceCube collaboration, Baret et al.), in Proc. of the 2007 Europhysics Conf. on High Energy Physics, Manchester, England, J. of Phys. Conf. Series 110 062001 (2008).

164. Neutrino Physics with IceCube (IceCube collaboration, Cowen et al.), in Proc. of the Euro. Phys. Soc. Conf. on High Energy Physics, Manchester, England, 2007, J. of Phys. Conf. Series 110 062005 (2008).

165. Cosmic Ray Physics: Gammas and Neutrinos (IceCube collaboration, Bernardini et al.), in Proc. of the Euro. Phys. Soc. Conf. on High Energy Physics, Manchester, UK, 2007, J. of Phys. Conf. Series 110 012007 (2008).

166. Neutrino Physics with the IceCube Detector (IceCube collaboration, Kiryluk et al.), Lake Louise Winter Institute, Alberta, Canada (2008); astro-ph/08061717.

167. High-Energy Neutrinos from the Cold: Status and Prospects of the IceCube Experiment (IceCube collaboration, Portello-Roucelle, et al.), in Proc. of 43rd Rencontres de Moriond – Electroweak Interactions and Unified Theories, La Thuile, Val d’Aosta, Italy (2008) 415.

Desiati CV 0110 34

168. The IceCube Cosmological Connection: Status and Prospects of the Polar Neutrino Observatory (IceCube collaboration, Ribordy, et al.), in Proc. of 43rd Rencontres de Moriond – Cosmology, La Thuile, Val d’Aosta, Italy (2008); astro- ph/08053546.

169. Status and Prospects of the IceCube Neutrino Telescope (IceCube collaboration, Resconi, et al.) in Proc. of the 3rd Intl. Workshop on a Very– Large-Volume Neutrino Telescope for the Mediterranean Sea (VLVnT08), Toulon, France, Nucl. Instrum. and Meth. A 602 7 (2009); astro-ph/08073891.

170. Neutrino Astronomy with the IceCube Observatory and Implications for Astroparticle Physics (IceCube collaboration, Desiati et al.), Vulcano Workshop 2008, Vulcano, Italy; astro-ph/08124004.

171. IceCube: A Cubic Kilometer Radiation Detector (IceCube collaboration, Klein et al.) in Proc. of Symposium on Radiation Measurement and Applications (SORMA) West 2008, Berkeley, California, IEEE Trans. Nucl. Sci. 56 1141 (2009); physics.ins-det/08070034.

172. Recent νs from IceCube (IceCube collaboration, Klein et al.) in Proc. of the XXIIIrd Intl. Conf. on Neutrino Physics and Astrophysics (Neutrino 08), Christchurch, New Zealand, Journal of Physics Conf. Series 136 022050 (2008); astro-ph/08100573.

173. Results from Seven Years of AMANDA-II (IceCube collaboration, DeYoung et al.) in Proc. of Neutrino 08, Christchurch, New Zealand, Journal of Physics Conf. Series 136 022046 (2008); astro-ph/08104513.

174. Optimization of Final Configuration of IceCube for Increased High-Energy Response (IceCube collaboration, Karle et al.) in Proc. of Neutrino 08, Christchurch, New Zealand, Journal of Physics Conf. Series 136 042059 (2008).

175. Searches for Diffuse Astrophysical Muon-Neutrino Fluxes with IceCube (IceCube collaboration, Hill et al.) in Proc. of Neutrino 08, Christchurch, New Zealand, Journal of Physics Conf. Series 136 042058 (2008).

176. Search for Neutralino Dark Matter with the AMANDA Neutrino Telescope and Prospects for IceCube (IceCube collaboration, Rizzo et al.) in Proc. of the 4th Intl. Workshop on the Dark Side of the Universe, Cairo, Egypt (2008), AIP Conf. Proc. 1115 42 (2009).

177. Measurement of Acoustic Properties of South Pole Ice for Neutrino Astronomy (IceCube collaboration, Vandenbroucke et al.) in Proc. of the 3rd Intl. Workshop on Acoustic and Radio EeV Neutrino Detection Activities (ARENA 2008), Rome, Italy, Nucl. Instrum. and Meth. A 604 S164 (2009); astro-ph/08111087.

Desiati CV 0110 35

178. Acoustic Noise in Deep Ice and Environmental Conditions at the South Pole (IceCube collaboration, Karg et al.) in Proc. of ARENA 2008, Rome, Italy, Nucl. Instrum. and Meth. A 604 S171 (2009); astro-ph/08111099.

179. HADES – Hydrophone for Acoustic Detection at South Pole (IceCube collaboration, Semburg et al.) in Proc. of ARENA 2008, Rome, Italy, Nucl. Instrum. and Meth. A 604 S215 (2009); astro-ph/08111114.

180. Measurement of Sound Speed versus Depth in Antarctic Ice with the South Pole Acoustic Test Setup (IceCube collaboration, Descamps et al.) in Proc. of ARENA 2008, Rome, Italy, Nucl. Instrum. and Meth. A 604 S175 (2009); astro- ph/08111797.

181. AURA – A Radio Frequency Extension to IceCube (IceCube collaboration, Landsman et al., with P. Kenny, L. Ruckman, and G.S. Varner) in Proc. of ARENA 2008, Rome, Italy, Nucl. Instrum. and Meth. A 604 S70 (2009); astro- ph/08112520.

182. IceCube: Construction Status and First Results (IceCube collaboration, Karle et al.) in Proc. of ARENA 2008, Rome, Italy, Nucl. Instrum. and Meth. A 604 S64 (2009); astro-ph/0812.3981v1.

183. Search for Sources of Astrophysical Neutrinos with IceCube (IceCube collaboration, Groβ et al.) in Proc. of 4th Intl. Mtg. on High-Energy Gamma-Ray Astronomy, Heidelberg, Germany, AIP Conf. Proc. 1085 779 (2009).

184. The IceCube DeepCore (IceCube collaboration, Schulz et al.) in Proc. of 4th Intl. Mtg. on High- Energy Gamma-Ray Astronomy, Heidelberg, Germany, AIP Conf. Proc. 1085 783 (2009).

185. Cosmic-Ray Results from the IceTop Air Shower Array (IceCube collaboration, Kolanoski et al.), Proc. of the 34th Intl. Conf. on High Energy Physics (ICHEP08), Philadelphia, Pennsylvania, 364; astro-ph/08103409.

186. Neutrino Oscillation Measurements with IceCube (IceCube collaboration, Rott et al.), Proc. of ICHEP08, Philadelphia, Pennsylvania, 394; astro-ph/08103698.

187. Search for Dark Matter with the AMANDA and IceCube Neutrino Detectors (IceCube collaboration, De Clerq et al.) in Proc. of the Identification of Dark Matter (IDM 2008), Stockholm, Sweden, Proceedings of Science PoS (idm 2008) 034.

188. Search for Neutrino Point Sources with IceCube 22-Strings (IceCube collaboration, Bazo Alba et al.) in Proc. of the Neutrino Oscillation Workshop (NOW 2008), Conca Specchiulla, Italy, Nucl. Phys. B (proc. supp.) 188 267 (2009); astro-ph/08114110.

189. Neutrino Astronomy in the Ice (IceCube collaboration, Montaruli et al.), in

Desiati CV 0110 36

Proc. of NOW 2008, Conca Specchiulla, Italy, Nucl. Phys. B (proc. supp.) 188 239 (2009); astro-ph.IM/09012664.

190. First Results from the IceTop Air Shower Array (IceCube collaboration, Klepser et al.) in Proc. of the 21st European Cosmic Ray Symposium (ECRS 2008), Košice, Slovakia, 487; astro-ph/08111671.

191. IceCube: Status and First Results (IceCube collaboration, Berghaus et al.) in Proc. of the Cosmic Ray Intl. Seminar (CRIS 2008), Malfa, Salina Island, Italy, Nucl. Phys. B (proc. supp) 190 127 (2009); astro-ph/08122883.

192. The Hunt for Cosmic Neutrino Sources with IceCube (IceCube collaboration, Bernardini et al.), in Proc. of the 6th Workshop on Science with the New Generation of High-Energy Gamma-Ray Experiments, Padova, Italy, AIP Conf. Proc. 1112 138 (2009); astro-ph.IM/09011049.

193. Search for Dark Matter with AMANDA and IceCube Detectors (IceCube collaboration, Rizzo et al.), to be published in Proc. of the 7th Intl. Heidelberg Conf. on Dark Matter in Astro and Particle Physics (Dark 2009), Christchurch, New Zealand.

194. Recent Results and Status of IceCube (IceCube collaboration, Seo et al. ), to be published in Proc. of Dark 2009, Christchurch, New Zealand.

195. Muons in IceCube (IceCube collaboration, Berghaus et al.), to be published in Proc. of the XV Intl. Symposium on Very–High-Energy Cosmic-Ray Interactions (ISVHECRI 2008), Paris, France; astro-ph.HE/09020021.

196. Status, Performance and First Results of the IceTop Array (IceCube collaboration, Stanev et al.), to be published in Proc. of ISVHECRI 2008, Paris, France; astro-ph.HE/09030576.

197. IceCube – A New Window on the Universe (IceCube collaboration, Gaisser et al., with D. Robertson) in Proc. of the 3rd Latin American School on Cosmic Rays and Astrophysics, Arequipa, Peru, AIP Conf. Proc. 1123 177 (2009); astro- ph.IM/09014294.

198. Searches for Neutrinos from GRBs with IceCube (IceCube collaboration, Taboada et al.), in Proc. of the 6th Huntsville Gamma-Ray Burst Symposium 2008, Huntsville, Alabama, AIP Conf. Proc. 1133 431 (2009).

199. Extended Search for Point Sources of Neutrinos Below and Above the Horizon: Covering Energies from TeV to EeV with IceCube (IceCube collaboration, Lauer et al.), in Proc. of the 2nd Heidelberg Workshop on High- Energy Gamma Rays and Neutrinos from Extra-Galactic Sources, Heidelberg, Germany (2009), J. of Mod. Phys. D; astro-ph.HE/09035434.

200. Recent Results of Point-Source Searches with the IceCube Neutrino

Desiati CV 0110 37

Telescope (IceCube collaboration, Strahler et al.), to be published in Proc. of the Lake Louise Winter Institute 2009, Alberta, Canada; astro-ph.HE/09054705.

201. Recent Results from IceCube and AMANDA (IceCube collaboration, T. de Young, et al) in Proc. of the 2009 Meeting of the Division of Particles and Fields of the American Physical Society (DPF-2009), Detroit, Michigan, eConf C090726; astro-ph.HE/09100215.

202. Results from IceCube (IceCube collaboration, C. Spiering, et al) in Proc. of European Physical Society Conf. on High Energy Physics, Krakow, Poland, Proc. of Sci. EPS-HEP 2009 101.

International Cosmic Ray Conference (ICRC) Proceedings

2009 – Lodz, Poland

1. Sensor Development and Calibration for Acoustic Neutrino Detection in Ice (IceCube collaboration, Bissok et al.), to appear in Proc. of the 31st ICRC HE2.4; astro-ph.IM/09073561

2. Physics Capabilities of the IceCube DeepCore Detector (IceCube collaboration, Wiebusch et al.), to appear in Proc. of the 31st ICRC OG2.5; astro- ph.IM/09072263

3. Large-Scale Cosmic-Ray Anisotropy with IceCube (IceCube collaboration, AbbasiR., Desiati P. and Díaz Vélez J.C., et al.), to appear in Proc. of the 31st ICRC SH3.2; astro-ph.HE/09070498

4. Search for the Kaluza-Klein Dark Matter with the AMANDA/IceCube Detectors (IceCube collaboration, Danninger and Han et al.), to appear in Proc. of the 31st ICRC HE2.3; astro-ph.HE/09063969

5. AMANDA 7-Year Multipole Analysis (IceCube collaboration, Schukraft and Hülß et al.), to appear in Proc. of the 31st ICRC OG2.5; astro-ph.HE/09063942

6. Searches for WIMP Dark Matter from the Sun with AMANDA (IceCube collaboration, Braun and Hubert et al.), to appear in Proc. of the 31st ICRC HE2.3; astro-ph.HE/09061615

7. Moon-Shadow Observation by IceCube (IceCube collaboration, Boersma et al.), to appear in Proc. of the 31st ICRC OG2.5

8. Likelihood Point-Source Search with IceCube (IceCube collaboration, Dumm et

Desiati CV 0110 38

al.), to appear in Proc. of the 31st ICRC OG2.5

9. IceCube Time-Dependent Point-Source Analysis Using Multiwavelength Information (IceCube collaboration, Baker et al.), to appear in Proc. of the 31st ICRC OG2.5

10. Search for Diffuse High-Energy Neutrinos with IceCube (IceCube collaboration, Hoshina et al.), to appear in Proc. of the 31st ICRC OG2.5

11. Direct Atmospheric Muon Energy Spectrum Measurement with IceCube (IceCube collaboration, Berghaus et al.), to appear in Proc. of the 31st ICRC HE1.5

12. Measurement of the Atmospheric Neutrino Energy Spectrum with IceCube (IceCube collaboration, Chirkin et al.), to appear in Proc. of the 31st ICRC HE2.2

13. Searches for Neutrinos from GRBs with the IceCube 22-String Detector and Sensitivity Estimates for the Full Detector (IceCube collaboration, Kappes et al.), to appear in Proc. of the 31st ICRC OG2.4

14. Reconstruction of IceCube Coincident Events and Study of Composition- Sensitive Observables Using Both the Surface and Deep Detector (IceCube collaboration, Feusels et al.), to appear in Proc. of the 31st ICRC HE1.3

15. Composition in the Knee Region with SPASE-AMANDA (IceCube collaboration, Andeen et al.), to appear in Proc. of the 31st ICRC HE1.2

16. Atmospheric Variations as Observed by IceCube (IceCube collaboration, Tilav et al.), to appear in Proc. of the 31st ICRC HE1.1

17. Search for High-Energetic Neutrinos from Supernova Explosions with AMANDA (IceCube collaboration, Lennarz et al.), to appear in Proc. of the 31st ICRC OG2.5; astro-ph.HE/09074621

18. Search for Neutrino Flares from Point Sources with IceCube (IceCube collaboration, Bazo Alba et al.), to appear in Proc. of the 31st ICRC OG2.5; astro-ph.HE/09084209

19. Neutrino Triggered High-Energy Gamma-Ray Follow-Up with IceCube (IceCube collaboration, Franke et al.), to appear in Proc. of the 31st ICRC OG2.5

20. IceCube / AMANDA Combined Analyses for the Search of Neutrino Sources at Low Energies (IceCube collaboration, Portello-Roucelle et al.), to appear in Proc. of the 31st ICRC OG2.5

21. First Search for Extraterrestrial Neutrino-Induced Cascades with IceCube (IceCube collaboration, Kiryluk et al.), to appear in Proc. of the 31st ICRC OG2.5

Desiati CV 0110 39

22. Atmospheric Neutrino Oscillation Measurements with IceCube (IceCube collaboration, Rott et al.), to appear in Proc. of the 31st ICRC HE DUEx

23. Search for Ultra–High-Energy Neutrinos with AMANDA (IceCube collaboration, Silvestri et al.), to appear in Proc. of the 31st ICRC OG2.5

24. Improved Reconstruction of Cascade-Like Events (IceCube collaboration, Middell et al.), to appear in Proc. of the 31st ICRC OG2.5

25. Search for Atmospheric Neutrino-Induced Cascades (IceCube collaboration, D’Agostino et al.), to appear in Proc. of the 31st ICRC HE2.2

26. Optical Follow-Up of High-Energy Neutrinos Detected by IceCube (IceCube and ROTSE collaborations, Francowiak et al.), to appear in Proc. of the 31st ICRC OG2.5

27. Search for GRB Neutrinos via a (Stacked) Time Profile Analysis (IceCube collaboration, Duvoort et al.), to appear in Proc. of the 31st ICRC OG2.4

28. Search for Neutrinos from GRBs with IceCube (IceCube collaboration, Meagher et al.), to appear in Proc. of the 31st ICRC OG2.4

29. Results and Prospects of Indirect Searches fo Dark Matter with IceCube (IceCube collaboration, Rott et al.), to appear in Proc. of the 31st ICRC HE2.3

30. The Extremely High-Energy Neutrino Search with IceCube (IceCube collaboration, Mase et al.), to appear in Proc. of the 31st ICRC HE1.4

31. Energy-Scale Calibration Using Cosmic-Ray Induced Muon Bundles Measured by the IceCube Detector with IceTop Coincident Signals (IceCube collaboration, Ishihara et al.), to appear in Proc. of the 31st ICRC HE1.5

32. Supernova Search with the AMANDA / IceCube Neutrino Telescopes (IceCube collaboration, Kowarik et al.), to appear in Proc. of the 31st ICRC OG2.2; astro- ph.HE/09080441.

33. Small Air Showers in IceCube (IceCube collaboration, Ruzybayev et al.), to appear in Proc. of the 31st ICRC HE1.1

34. A First All-Particle Cosmic-Ray Energy Spectrum from IceTop (IceCube collaboration, Kislat et al.), to appear in Proc. of the 31st ICRC HE1.2

35. Study of High p_T Muons in IceCube (IceCube collaboration, Gerhardt et al.), to appear in Proc. of the 31st ICRC HE1.5

36. Search for High-Energy Tau Neutrinos in IceCube (IceCube collaboration, Seo et al.), to appear in Proc. of the 31st ICRC OG2.5

Desiati CV 0110 40

37. Implementation of an Active Veto against Atmospheric Muons in IceCube DeepCore (IceCube collaboration, Euler et al.), to appear in Proc. of the 31st ICRC OG2.5

38. Fundamental Neutrino Measurements with IceCube DeepCore (IceCube collaboration, Grant et al.), to appear in Proc. of the 31st ICRC HE2.2

39. Acoustic Detection of High-Energy Neutrinos in Ice (IceCube collaboration, Descamps et al.), to appear in Proc. of the 31st ICRC HE2.4; astro- ph.IM/09083251

40. Search for Quantum Gravity with IceCube and High-Energy Atmospheric Neutrinos (IceCube collaboration, Huelsnitz et al.), to appear in Proc. of the 31st ICRC HE2.3

2007 – Merida, Mexico

1. IceCube - Construction Status and Performance Results of the 22-String Detector (IceCube collaboration, Karle et al.), Proc. of the 30th ICRC 6 835 HE3.5; astro-ph/07110353, 7

2. The Combined AMANDA and IceCube Neutrino Telescope (IceCube collaboration, Gross et al.), in Proc. of the 30th ICRC 3 1253 OG2.5; astro- ph/07110353, 11

3. Performance of IceTop Array (IceCube collaboration, Gaisser et al.), in Proc. of the 30th ICRC 5 1001 HE1.5; astro-ph/07110353, 15

4. Heliospheric Physics with IceTop (IceCube collaboration, Kuwabara et al.), in Proc. of the 30th ICRC 1 339 SH2.1; astro-ph/07110353, 19

5. Measuring Cosmic Ray Composition at the Knee with SPASE2 and AMANDA (SPASE2 and IceCube collaborations, Andeen et al.), in Proc. of the 30th ICRC 2 165 OG1.2; astro-ph/07110353, 23

6. Cosmic Rays in IceCube: Composition-Sensitive Observables (IceCube collaboration, Song et al.), in Proc. of the 30th ICRC 6 143 HE1.2A; astro- ph/07110353, 27

7. Search for TeV Gamma Rays from Point Sources with SPASE-2 (IceCube collaboration, James et al.), in Proc. of the 30th ICRC 2 735 OG2.2; astro- ph/07110353, 31

Desiati CV 0110 41

8. Study of High p_T Muons in Air Showers with IceCube (IceCube collaboration, Klein et al.), in Proc. of the 30th ICRC 5 1249 HE2.1; astro-ph/07110353, 35

9. IceTop/IceCube Coincidences (IceCube collaboration, Bai et al.), in Proc. of the 30th ICRC 5 1209 HE2.1; astro-ph/07110353, 39

10. Lateral Distribution of Air Shower Signals and Initial Energy Spectrum (IceCube collaboration, Klepser et al.), in Proc. of the 30th ICRC 4 35 HE1.1A; astro- ph/07110353, 43

11. IceTop Tank Response to Muons (IceCube collaboration, Demiroers et al.), in Proc. of the 30th ICRC 5 1261 HE2.1; astro-ph/07110353, 47

12. Response of IceTop Tanks to Low-Energy Particles (IceCube collaboration, Clem et al.), in Proc. of the 30th ICRC 1 237 SH1.8; astro-ph/07110353, 51

13. Testing Alternative Oscillation Scenarios with Atmospheric Neutrinos using AMANDA-II Data from 2000 to 2003 (IceCube collaboration, Ahrens et al.), in Proc. of the 30th ICRC 5 1295 HE2.2; astro-ph/07110353, 55

14. Atmospheric Muon Neutrino Analysis with IceCube (IceCube collaboration, Pretz et al.), in Proc. of the 30th ICRC 5 1315 HE2.2; astro-ph/07110353, 59

15. Muon Energy Reconstruction and Atmospheric Neutrino Spectrum Unfolding with the IceCube Detector (IceCube collaboration, Zornoza et al.), in Proc. of the 30th ICRC 5 1275 HE2.2; astro-ph/07110353, 63

16. Searches for a Diffuse Flux of Extra-Terrestrial Muon Neutrinos with AMANDA and IceCube (IceCube collaboration, Hoshina et al.), in Proc. of the 30th ICRC 5 1449 HE2.3; astro-ph/07110353, 67

17. Measurement of the Atmospheric Lepton Energy Spectra with AMANDA-II (IceCube collaboration, Münich et al.), in Proc. of the 30th ICRC 3 1225 OG2.5; astro-ph/07110353, 71

18. Multi-Year Search for Ultra-High Energy Neutrinos with AMANDA-II (IceCube collaboration, Gerhardt et al.), in Proc. of the 30th ICRC 5 1429 HE2.3; astro- ph/07110353, 75

19. Likelihood Deconvolution of Diffuse Prompts and Extra-Terrestrial Neutrino Fluxes in the AMANDA-II Detector (IceCube collaboration, Hill et al.), in Proc. of the 30th ICRC 5 1453 HE2.3; astro-ph/07110353, 79

20. Search for Neutrino-Induced Cascades with AMANDA Data taken in 2000-2004 (IceCube collaboration, Tarasova et al.), in Proc. of 30th ICRC 5 1461 HE2.3; astro-ph/07110353, 83

21. Very–High-Energy Electromagnetic Cascades in the LPM Regime with IceCube

Desiati CV 0110 42

(IceCube collaboration, Bolmont et al.), in Proc. of 30th ICRC 3 1245 OG2.5; astro-ph/07110353, 91

22. IceCube Performance with Artificial Light Sources: the Road to a Cascade Analyses (IceCube collaboration, Kiryluk et al.), in Proc. of the 30th ICRC 3 1233 OG2.5; astro-ph/07110353, 95

23. Neutrino Point-Source Search Strategies for AMANDA-II and Results for 2005 data (IceCube collaboration, Braun et al.), in Proc. of the 30th ICRC 5 1437 HE2.3; astro-ph/07110353, 99

24. Point-Source Analysis for Cosmic Neutrinos beyond PeV Energies with AMANDA and IceCube (IceCube collaboration, Ackermann et al.), in Proc. of the 30th ICRC 4 1357 HE2.3; astro-ph/07110353, 103-106

25. 9-String IceCube Point-Source Analysis (IceCube collaboration, Finley et al.), in Proc. of the 30th ICRC 4 1389 HE2.3; astro-ph/07110353, 107

26. Search for Signatures of Extra-Terrestrial Neutrinos with a Multipole Analysis of the AMANDA-II Sky Map (IceCube collaboration, Hülß et al.), in Proc. of the 30th ICRC 5 1405 HE2.3; astro-ph/07110353, 111

27. Cluster Search for Neutrino Flares from Predefined Directions (IceCube collaboration, Satalacka et al.), Proc. of the 30th ICRC 5 1353 HE2.3; astro- ph/07110353 115

28. All-Sky Search for Transient Sources of Neutrinos using 5 Years of AMANDA-II data (IceCube collaboration, Porrata et al.), in Proc. of the 30th ICRC 5 1393 HE2.3; astro-ph/07110353, 119

29. Neutrino Triggered Target of Opportunity (NToO) Test Run with AMANDA and MAGIC (IceCube collaboration, Ackermann et al.), in Proc. of the 30th ICRC 3 1257 OG2.5; astro-ph/07110353, 123

30. Detecting GRBs with IceCube and Follow-Up Observations (IceCube collaboration, Kappes et al.), in Proc. of the 30th ICRC 3 1171 OG2.4; astro- ph/07110353, 127

31. Search for Neutralino Dark Matter with the AMANDA Neutrino Telescope (IceCube collaboration, Hubert et al.), in Proc. of the 30th ICRC 4 709 HE3.3; astro-ph/07110353, 131

32. Prospect of Dark-Matter Detection in IceCube (IceCube collaboration, Wikstrom et al.), in Proc. of the 30th ICRC 6 741 HE3.3; astro-ph/07110353, 135

33. Search for Relativistic Magnetic Monopoles with AMANDA-II (IceCube collaboration, Wissing et al.), in Proc. of the 30th ICRC 4 799 HE3.4; astro- ph/07110353, 139

Desiati CV 0110 43

34. Subrelativistic Particle Searches with the AMANDA-II Detector (IceCube collaboration, Pohl et al.), in Proc. of the 30th ICRC 6 795 HE3.4; astro- ph/07110353, 143

35. Exotic Particle Searches with IceCube (IceCube collaboration, Christy et al.), in Proc. of the 30th ICRC 6 795 HE3.4; astro-ph/07110353, 147

36. Effect of the Improved Data Acquisition System of IceCube on its Neutrino- Detection Capabilities (IceCube collaboration, Chirkin et al.), in Proc. of the 30th ICRC 5 1149 HE1.5; astro-ph/07110353, 151

37. Improved Cherenkov Light Propagation Methods for the IceCube Neutrino Telescope (IceCube collaboration, Lundberg et al.), in Proc. of 30th ICRC 5 1519 HE2.4; astro-ph/07110353, 155

38. Reconstruction of High-Energy Muon Events in IceCube using Waveforms (IceCube collaboration, Grullon et al.), in Proc. of the 30th ICRC 5 1457 HE2.3; astro-ph/07110353, 159

39. Radio Detection of GZK Neutrions: AURA Status and Plans (IceCube collaboration, Landsman et al.), in Proc. of the 30th ICRC 4 827 HE3.5; astro- ph/07110353, 163

2005 - Pune, India

1. IceCube collaboration, Contributions to the Int’l. Cosmic Ray Conference (ICRC2005), Proceedings of ICRC2005, Pune, India (2005); astro-ph/0509330.

2. Declination-dependent Study of AMANDA-II Atmospheric Neutrino Data (IceCube collaboration, Halzen, et al), in Proc. of the 29th ICRC, Pune, India, 00 101-106 (2005).

3. An Investigation of Seasonal Variations in the Atmospheric Neutrino Rate with the AMANDA-II Neutrino Telescope (IceCube collaboration, Ackerman, et al), in Proc. of the 29th ICRC, Pune, India, 9 107-110 (2005).

4. Search for Diffuse Flux of Extraterrestrial Muon Neutrinos using AMANDA-II Data from 2000 to 2003 (IceCube collaboration, Hodges, et al), in Proc. of the 29th ICRC, Pune 5 115-118 (2005).

5. Search for a Diffuse Flux of Non-Terrestrial Muon Neutrinos with the AMANDA Detector (IceCube collaboration, Munich, et al), in Proc. of the 29th ICRC, Pune 5 17-20 (2005).

Desiati CV 0110 44

6. Sensitivity of AMANDA-II to UHE Neutrinos (IceCube collaboration, Gerhardt, et al), in Proc. of the 29th ICRC, Pune 5 111-114 (2005).

7. Probing for Leptonic Signatures from GRB030329 with AMANDA-II (IceCube collaboration, Stamatikos, et al), in Proc. of the 29th ICRC, Pune 4 471-474 (2005); astro-ph/0510036

8. The Search for Neutrinos from Gamma-Ray Bursts with AMANDA (IceCube colla-boration, Kuehn, et al), in Proc. of the 29th ICRC, Pune 5 131-134 (2005).

9. Neutrino-Induced Cascades from GRBs with AMANDA-II (IceCube collaboration, Hughey, et al), in Proc. of the 29th ICRC, Pune 5 119-122 (2005).

10. Air Showers with IceCube: First Engineering Data (IceCube collaboration, Gaisser, et al), in Proc. of the 29th ICRC, Pune 8 315-318 (2005).

11. Calibration and Characterization of Photomultiplier Tubes of the IceCube Neutrino Detector (IceCube collaboration, Miyamoto, et al), in Proc. of the 29th ICRC, Pune 5 63-66 (2005).

12. IceCube: Initial Performance (IceCube collaboration, Chirkin, et al), in Proc. of the 29th ICRC, Pune 8 303-306 (2005).

13. Simulation of a Hybrid Optical/Radio/Extension to IceCube for EeV Neutrino Detection (IceCube collaboration, Besson, et al), in Proc. of the 29th ICRC, Pune 5 21-24 (2005); astro-ph/0512604

14. Multiwavelength Comparison of Selected Neutrino Point Source Candidates (IceCube collaboration, Ackermann, et al), in Proc. of the 29th ICRC, Pune 00 101-104 (2005).

15. A Search for High-Energy Muon Neutrinos from the Galactic Plane with AMANDA-II (IceCube collaboration, Kelley, et al), in Proc. of the 29th ICRC, Pune 5 127-130 (2005); astro-ph/0509546

16. Search for High-Energy Neutrino Point Sources in the Northern Hemisphere with the AMANDA-II Neutrino Telescope (IceCube collaboration, Ackermann, et al), in Proc. of the 29th ICRC, Pune 5 5-8 (2005).

17. A Source-Stacking Analysis of AGN as a Neutrino Point Source Candidates with AMANDA (IceCube collaboration, Gross, et al), in Proc. of the 29th ICRC, Pune 5 13-16 (2005).

18. Performance of AMANDA-II using Transient Waveform Recorders (IceCube collaboration, Silvestri, et al), in Proc. of the 29th ICRC, Pune 5 431-434 (2005).

19. A Software Trigger for the AMANDA Neutrino Detector (IceCube collaboration, Messarius, et al), in Proc. of the 29th ICRC, Pune 5 207-210 (2005).

Desiati CV 0110 45

20. Search for Neutralino Dark Matter with the AMANDA Neutrino Detector (IceCube collaboration, Hubert, et al), in Proc. of the 29th ICRC, Pune 9 179-182 (2005).

21. Neutrino Astronomy with IceCube and AMANDA (IceCube collaboration, Hill, et al), in Proc. of the 29th ICRC, Pune 10 213-226 (2005).

2003 - Tsukuba, Japan

1. Response of AMANDA-II to Cosmic Ray Muons (AMANDA collaboration, Desiati, et al) in Proc of the 28th ICRC, Tsukuba HE2.3 1373-1376 (2003).

2. Measurement of the Cosmic Ray Composition at the Knee with the SPASE-2/ AMANDA-B10 Detectors (SPASE and AMANDA collaborations, Rawlins, et al) in Proc of the 28th ICRC, Tsukuba, Japan HE1.1 173-176 (2003). 3. Simulation of Ice Cherenkov Detectors for IceTop (IceCube collaboration, Stanev, et al) in Proc of the 28th ICRC, Tsukuba HE1.5 965-968 (2003).

4. IceTop: The Surface Component of IceCube (IceCube collaboration, Gaisser, et al) in Proc of the 28th ICRC, Tsukuba HE1.5 1117-1120 (2003).

5. Cosmic Ray Flux Measurement with AMANDA-II (AMANDA collaboration, Chirkin, et al) in Proc of the 28th ICRC, Tsukuba HE2.1 1211-1214 (2003).

6. Search for High Energy Neutrinos of All Flavors with AMANDA II (AMANDA collaboration, Kowalski, et al) in Proc of the 28th ICRC, Tsukuba HE2.3 1301- 1304 (2003).

7. Search for Extraterrestrial Point Sources of Neutrinos with AMANDA-II (AMANDA collaboration, Karle, et al) in Proc of the 28th ICRC, Tsukuba HE2.3 1305-1308 (2003).

8. AMANDA-B10 Limit on UHE Muon-Neutrinos (AMANDA collaboration, Hundertmark, et al) in Proc of the 28th ICRC, Tsukuba HE2.3 1309-1312 (2003).

9. Atmospheric Neutrino and Muon Spectra Measured with the AMANDA-II Detector (AMANDA collaboration, Geenan, et al) in Proc of the 28th ICRC, Tsukuba HE2.3 1313-1316 (2003).

10. Search for Diffuse Fluxes of Extraterrestrial Muon-Neutrinos with the AMANDA Detectors (AMANDA collaboration, Hill, et al) in Proc of the 28th ICRC, Tsukuba HE2.3 1317-1320 (2003).

Desiati CV 0110 46

11. Online Search for Neutrino Bursts from Supernovae with the AMANDA Detector (AMANDA collaboration, Feser, et al) in Proc of the 28th ICRC, Tsukuba HE2.3 1325-1328 (2003).

12. New Capabilities of the AMANDA-II High Energy Neutrino Detector (AMANDA collaboration, Wagner, et al) in Proc of the 28th ICRC, Tsukuba HE2.3 1365- 1368 (2003).

13. The IceCube High Energy Neutrino Telescope (IceCube collaboration, Yoshida, et al) in Proc of the 28th ICRC, Tsukuba HE2.3 1369-1372 (2003).

14. Search for Muons from WIMP Annihilation in the Center of the Earth with the AMANDA-B10 Detector (AMANDA collaboration, Olbrechts, et al) in Proc of the 28th ICRC, Tsukuba HE3.3 1677-1680 (2003).

15. Searching for High Energy Muon Neutrinos from Gamma-Ray Bursts with AMANDA (AMANDA collaboration, Hill, et al) in Proc of the 28th ICRC, Tsukuba OG2.4 2717-2720 (2003).

16. Recent Results from the AMANDA Neutrino Telescope (AMANDA collaboration, Köpke, et al) in Proc of the 28th ICRC, Tsukuba 8 323-333 (2003).

2001 - Hamburg, Germany

1. Analysis of Atmospheric Muons with AMANDA (AMANDA collaboration, Desiati, et al), in Proc of the 27th ICRC, Hamburg, Germany HE 2.1 HE205 985-988 (2001).

2. Calibration and Survey of AMANDA with SPASE (SPASE and AMANDA collaborations, Bai, et al), in Proc of the 27th ICRC, Hamburg HE 2.1 HE205 977- 980 (2001).

3. Observation of High Energy Atmospheric Neutrinos with AMANDA (AMANDA collaboration, Wiebusch, et al) in Proc of the 27th ICRC, Hamburg HE 2.3 18:12 1109-1112 (2001).

4. Search for a Diffuse Flux from Sources of High Energy Neutrinos with AMANDA- B10 (AMANDA collaboration, Hill, et al) in Proc of the 27th ICRC, Hamburg HE 2.3 18:24 1113-1116 (2001).

5. Search for Cascade-like Events in the AMANDA-B10 Detector (AMANDA collaboration, Taboada, et al) in Proc of the 27th ICRC, Hamburg HE 2.3 18:36 1117-1120 (2001).

Desiati CV 0110 47

6. Supernova Neutrino-Burst Search with the AMANDA Detector (AMANDA collaboration, Neunhöffer, et al) in Proc of the 27th ICRC, Hamburg HE 2.3 HE231 1125-1128 (2001).

7. The AMANDA Search for High Energy Neutrinos from Gamma-Ray Bursts (AMANDA collaboration, Hardtke et al) in Proc of the 27th ICRC, Hamburg HE 2.3 HE 232 1121-1124 (2001).

8. Performance of the AMANDA-II Detector (AMANDA collaboration, Wischnewski, et al) in Proc of the 27th ICRC, Hamburg HE 2.3 HE233 1105-1108 (2001).

9. A Method to Detect UHE Neutrinos with AMANDA (AMANDA collaboration, Hundertmark, et al) in Proc of the 27th ICRC, Hamburg HE 2.3 HE236 1129- 1132 (2001).

10. Time Calibration of the AMANDA Neutrino Telescope with Cosmic Ray Muons (AMANDA collaboration, Cowen, et al) in Proc of the 27th ICRC, Hamburg HE 2.3 HE 237 1133-1136 (2001).

11. Potential of AMANDA-II in HE Neutrino Astrophysics (AMANDA collaboration, Barwick, et al) in Proc of the 27th ICRC, Hamburg, Germany HE 2.5 19:24 1101- 1104 (2001).

12. The IceCube Detector (IceCube collaboration, Goldschmidt, et al) in Proc of the 27th ICRC, Hamburg HE 2.5 19:36 1237-1240 (2001).

13. Science Potential of the IceCube Detector (AMANDA collaboration, Spiering, et al) in Proc of the 27th ICRC, Hamburg HE 2.5 HE256 1242-1245 (2001).

14. Search for Relativistic Monopoles with the AMANDA Detector (AMANDA collaboration, Niessen, et al) in Proc of the 27th ICRC, Hamburg HE 3.4 HE 315 1496-1498 (2001).

1999 - Salt Lake City, U.S.A.

3 1. Site Characterization for a Km Scale Deep Underwater Astrophysical Neutrino Observatory in the Mediterranean Sea (NEMO collaboration, Riccobene, et al) in Proc. of the 26th ICRC, Salt Lake City, Utah, HE6.3.05 2 (1999).

2. Capabilities of an Underwater Detector as a Neutrino Telescope and for Neutrino Oscillation Search (NEMO collaboration, Montaruli, et al) in Proc. of the 26th ICRC, Salt Lake City, Utah, HE6.3.06 2 (1999).

Desiati CV 0110 48

1997 - Durban, South Africa

1. Status of the NESTOR Project (NESTOR collaboration, Capone, et al) in Proc. of the 25th ICRC, Durban, South Africa, 7 49 (1997).

2. Data Transmission for NESTOR Telescope (NESTOR collaboration, Capone, et al) in Proc. of the 25th ICRC, Durban, South Africa, 7 53 (1997).

3. Perspectives for Neutrino Astrophysics with NESTOR (NESTOR collaboration, Bottai, et al) in Proc. of the 25th ICRC, Durban, South Africa, 7 57 (1997).

1995 - Rome, Italy

1. Description and Operational Characteristics of the LVD Experiment (LVD collaboration) in Proc. of the 24th ICRC, Rome, Italy 1035 (1995).

2. Search for Neutrinos from Collapsing Stars with the LVD Experiment (LVD collaboration) in Proc. of the 24th ICRC, Rome, Italy, 1 762 (1995).

3. Analysis of Underground Events Recorded in LVD Correlated with γ-bursts (LVD collaboration) in Proc. of the 24th ICRC, Rome, Italy, 1 662 (1995).

4. Experimental Limit on the Solar Antineutrino Flux (LVD collaboration) in Proc. of the 24th ICRC, Rome, Italy, 4 1235 (1995).

5. Atmospheric single muon flux measured by LVD at Gran Sasso (LVD collaboration) in Proc. of the 24th ICRC, Rome, Italy, 1 548 (1995).

6. Power Index of pion and kaon Spectrum in the Atmosphere Obtained by LVD (LVD collaboration) in Proc. of the 24th ICRC, Rome, Italy, 1 557 (1995).

7. Neutrino-Induced Single Muon Flux Measured by LVD at Gran Sasso (LVD collaboration) in Proc. of the 24th ICRC, Rome, Italy, 1 557 (1995).

8. Comparison of LVD Single Muon Angular Distribution with Simulated Data (LVD collaboration) in Proc. of the 24th ICRC, Rome, Italy, 1 544 (1995).

9. Landau Energy-Loss in Liquid Scintillator and the Search for WIMPs with LVD (LVD collaboration) in Proc. of the 24th ICRC, Rome, Italy, 1 861 (1995).

Desiati CV 0110 49