DOCSLIB.ORG

MG15 Plenary Session

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
MG15 Plenary Session Monday, July 2 Tuesday, July 3 Wednesday, July 4 Thursday, July 5 Friday, July 6 Saturday, July 7 KILONOVAE AND GRAVITATIONAL MULTIMESSANGER Topic MATHEMATICS AND GENERAL RELATIVITY FUTURE PRECISION TESTS OF GR GRBs AND CMB THE FRONTIERS WAVES ASTROPHYSICS Chair: CLAUS LAEMMERZAHL Chair: MARCO TAVANI Chair: REMO RUFFINI Chair: ENRICO COSTA Chair: PAOLO GIOMMI Chair: FULVIO RICCI Marcel Grossmann Awards ELENA PIAN STEFANO VITALE VICTORIA KASPI RAZMIK MIRZOYAN MARKUS ARNDT 1. LYMAN PAGE Kilonovae: the cosmic Gravitation Wave Gamma-Ray and Experiments to Probe 9.00 – 9.35 Fast Radio Bursts 2. THE PLANCK SCIENTIFIC COLLABORATION foundries of heavy elements Astronomy in ESA science Multi-Messenger Quantum Linearity at the 3. RASHID SUNYAEV programme Highlights with MAGIC Interface to Gravity & 4. HEPL - Stanford Complexity 5. SHING-TUNG YAU NIAL TANVIR TAKAAKI KAJITA BING ZHANG ELISA RESCONI TOBIAS WESTPHAL Lectio Magistralis A new era of gravitational- From gamma-ray bursts Neutrino Astronomy in Micro-mechanical Status of KAGRA and its 9.35-10.10 wave/electromagnetic to fast radio bursts: the Multi-messenger measurements of weak scientific goals SHING-TUNG YAU multi-messenger astronomy unveiling the mystery of Era gravitational forces Quasi-local mass at null infinity cosmic bursting sources MASAKI ANDO FRANCIS HALZEN SHU ZHANG TSVI PIRAN RASHID SUNYAEV DECIGO : Gravitational-Wave JEAN-LOUP PUGET IceCube: Opening a Introduction to Insight- Mergers and GRBs: past 10.10-10.45 Observation from Space The Planck mission New Window on the HXMT: China’s first X-ray present and future Universe from the South Astronomy Satellite Pole 10.45 -11.15 Coffee Break Coffee Break Coffee Break Coffee Break Coffee Break Coffee Break JORGE ARMANDO LORENZO AMATI MALCOLM JOHN STEPHAN ROSSWOG LUO JUN RUEDA HERNÁNDEZ JAMES LATTIMER Cosmology and multi- 11.15-11.50 PERRY Neutron star mergers as TianQin: a space-borne Binary-driven hypernovae The history of r –process messenger astrophysics with Black Hole Entropy and Soft Hair heavy element production gravitational wave detector and the understanding of Gamma-Ray Bursts site gamma-ray bursts RALPH ENGEL THOMAS HERTOG DAVID SHOEMAKER JO VAN DEN BRAND REMO RUFFINI (TBD) What have we learned ELISABETTA CAVAZZUTI A Smooth Exit from Eternal Inflation LIGO's past and future Gravitational wave science about ultra-high-energy Gev LAT observations from 11.50-12.25 observations of Black Hole and Virgo cosmic rays from the GRBs and active galactic and Neutron Star Binaries Pierre Auger nuclei Observatory? YU WANG RUFFINI Remo 12.25-13.00 JEAN-LUC LEHNERS On the role of binary ERNST MARIA RASEL HEINO FALCKE PAOLO DE Concluding Remarks systems in No smooth beginning for Imaging Black Holes now BERNARDIS GW170817/GRB170817A/A ROY KERR spacetime and in the future T2017gfo Towards MG16 IVAN AGULLO HAO LIU MANUEL RODRIGUES LUC BLANCHET FABIO GARGANO The first results of the DAMPE and its latest 13.00 -13.35 Loop Quantum Cosmology and the An independent Post-Newtonian Theory Cosmic Microwave Background investigation of MICROSCOPE test of the and Gravitational Waves results 13.35 - Group Picture gravitational wave data equivalence principle in space 15.15-19.15 Parallel Sessions Parallel Sessions Free afternoon Parallel Sessions Parallel Sessions MARC HENNEAUX JEAN-LOUP PUGET ANNE ARCHIBALD Public JEREMIAH OSTRIK ER The Cosmological Singularity From Planck to Atacama Lecture Ultralight scalars as cosmological dark h. 19.30 Does extreme gravity matter Cosmology Telescope affect how objects fall? 19.30-20.00 Official Banquet Palazzo Colonna ICRANet Exhibitions: Public MALCOLM LONGAIR h. 20.00 - SYSU Connection LYMAN PAGE “Fermi and Astrophysics” Lecture Ryle and Hewish: 50 and 100 Year Reception sponsored by the & 20.00-20.30 Anniversaries Sun Yat-Sen University - China “ICRANet and China” World Scientific Open Access Proceedings information is available at the meeting website " Proceedings " link on the right side navigation panel .
Load more

Recommended publications
  • Constraints on Black-Hole Charges with the 2017 EHT Observations of M87*
    PHYSICAL REVIEW D 103, 104047 (2021) Constraints on black-hole charges with the 2017 EHT observations of M87* – Prashant Kocherlakota ,1 Luciano Rezzolla,1 3 Heino Falcke,4 Christian M. Fromm,5,6,1 Michael Kramer,7 Yosuke Mizuno,8,9 Antonios Nathanail,9,10 H´ector Olivares,4 Ziri Younsi,11,9 Kazunori Akiyama,12,13,5 Antxon Alberdi,14 Walter Alef,7 Juan Carlos Algaba,15 Richard Anantua,5,6,16 Keiichi Asada,17 Rebecca Azulay,18,19,7 Anne-Kathrin Baczko,7 David Ball,20 Mislav Baloković,5,6 John Barrett,12 Bradford A. Benson,21,22 Dan Bintley,23 Lindy Blackburn,5,6 Raymond Blundell,6 Wilfred Boland,24 Katherine L. Bouman,5,6,25 Geoffrey C. Bower,26 Hope Boyce,27,28 – Michael Bremer,29 Christiaan D. Brinkerink,4 Roger Brissenden,5,6 Silke Britzen,7 Avery E. Broderick,30 32 Dominique Broguiere,29 Thomas Bronzwaer,4 Do-Young Byun,33,34 John E. Carlstrom,35,22,36,37 Andrew Chael,38,39 Chi-kwan Chan,20,40 Shami Chatterjee,41 Koushik Chatterjee,42 Ming-Tang Chen,26 Yongjun Chen (陈永军),43,44 Paul M. Chesler,5 Ilje Cho,33,34 Pierre Christian,45 John E. Conway,46 James M. Cordes,41 Thomas M. Crawford,22,35 Geoffrey B. Crew,12 Alejandro Cruz-Osorio,9 Yuzhu Cui,47,48 Jordy Davelaar,49,16,4 Mariafelicia De Laurentis,50,9,51 – Roger Deane,52 54 Jessica Dempsey,23 Gregory Desvignes,55 Sheperd S. Doeleman,5,6 Ralph P. Eatough,56,7 Joseph Farah,6,5,57 Vincent L.
    [Show full text]
  • Dream Image the Search for That One Elusive Image
    What? Dream image The search for that one elusive image. Why? The gravitational force around a black hole is so strong that it distorts time and space: even light cannot escape. Demonstrating the existence of black holes confirms the theories Einstein developed on gravity in physics. Who? Heino Falcke, professor of radio astronomy and astroparticle physics at the Radboud University Nijmegen, together with colleagues from Radboud University, the University of Amsterdam, Leiden University and the The shadow of University of Groningen, as well as an international team of astronomers. Where? Eight telescopes spread across the globe that together form the Event Horizon Telescope (EHT). the black hole Result? The first image of the shadow of a black hole. Finally we know what a black hole looks like. In April, an international team of astronomers presented the very first image of the shadow of a black hole. ‘ TEXT: MARION DE BOO IMAGES : HOLLANDSE HOOGTE ‘I felt like Christopher Columbus. We Big dreams saw things that none of us had ever Did he ever doubt this wild plan? ‘I often have big dreams, seen before,’ says Heino Falcke. On 10 it’s in my DNA. And then I’ll do everything in my power to April 2019, the radio astronomer working make them come true,’ Falcke says. ‘But until that mo- in Nijmegen presented the very first ima- ment arrives, you’re never sure if it’s really going to suc- ge of the light bending around the black ceed.’ In 1994 he obtained his PhD summa cum laude at hole in M87 galaxy.
    [Show full text]
  • Foreign Rights Guide
    FOREIGN RIGHTS GUIDE Spring 2020 Fiction Non-Fiction FICTION FICTION HIGHLIGHT Based on a true story ENGLISH BOOKLET AVAILABLE A powerful novel about history’s darkest chapter, the German secret service in New SAMPLE TRANSLATION AVAILABLE York City and the activities of Nazis in Manhattan in the late 1930s. End of the 30s: Before the Americans entered the war, the streets of New York are in a tumult. Anti-Semitic and racist groups are eager for the sympathy of the masses, German nationalists celebrate Hitler as the man of the hour. Josef Klein, himself an immigrant from Germany, lives relatively untouched by all this. His world is the multicultural streets of Harlem. His great passion is the amateur radio. That is how he meets Lauren, Miss Doubleyoutwo, a young activist who has great sympathy for the calm German. But Josef‘s technical abilities as a radio operator attract the attention of influential men, and even before he can interpret the events correctly, Josef is already a little cog in the big wheel of the espionage network of the German defense. Ulla Lenze delivers a smart and gripping novel about the unknown history of the Germans in the US during the Second World War. The incredible life story of the emigrant Josef Klein, who is targeted by the world powers in New York, reveals the espionage activities of the Nazi regime in the US and tells about political entanglements far away from home. Ulla Lenze Highly acclaimed author The Radio Operator Sold into 9 territories before 302 pages publication Hardcover February 2020 ISBN: 978-3-608-96463-9 Rights sold to: Italy/Marsilio, The Netherlands/ Meridiaan, USA/HarperVia (English WR), Brazil/Harper Collins, France/Hachette (Lattès), Finland/Like Publishing, Croatia/Fraktura, Ulla Lenze, born in Mönchengladbach in 1973, studied Music and Spain/Salamandra, Greece/Patakis Philosophy in Cologne.
    [Show full text]
  • Global Program
    PROGRAM Monday morning, July 13th La Sapienza Roma - Aula Magna 09:00 - 10:00 Inaugural Session Chairperson: Paolo de Bernardis Welcoming addresses Remo Ruffini (ICRANet), Yvonne Choquet-Bruhat (French Académie des Sciences), Jose’ Funes (Vatican City), Ricardo Neiva Tavares (Ambassador of Brazil), Sargis Ghazaryan (Ambassador of Armenia), Francis Everitt (Stanford University) and Chris Fryer (University of Arizona) Marcel Grossmann Awards Yakov Sinai, Martin Rees, Sachiko Tsuruta, Ken’Ichi Nomoto, ESA (acceptance speech by Johann-Dietrich Woerner, ESA Director General) Lectiones Magistrales Yakov Sinai (Princeton University) 10:00 - 10:35 Deterministic chaos Martin Rees (University of Cambridge) 10:35 - 11:10 How our understanding of cosmology and black holes has been revolutionised since the 1960s 11:10 - 11:35 Group Picture - Coffee Break Gerard 't Hooft (University of Utrecht) 11:35 - 12:10 Local Conformal Symmetry in Black Holes, Standard Model, and Quantum Gravity Plenary Session: Mathematics and GR Katarzyna Rejzner (University of York) 12:10 - 12:40 Effective quantum gravity observables and locally covariant QFT Zvi Bern (UCLA Physics & Astronomy) 12:40 - 13:10 Ultraviolet surprises in quantum gravity 14:30 - 18:00 Parallel Session 18:45 - 20:00 Stephen Hawking (teleconference) (University of Cambridge) Public Lecture Fire in the Equations Monday afternoon, July 13th Code Classroom Title Chairperson AC2 ChN1 MHD processes near compact objects Sergej Moiseenko FF Extended Theories of Gravity and Quantum Salvatore Capozziello, Gabriele AT1 A Cabibbo Cosmology Gionti AT3 A FF3 Wormholes, Energy Conditions and Time Machines Francisco Lobo Localized selfgravitating field systems in the AT4 FF6 Dmitry Galtsov, Michael Volkov Einstein and alternatives theories of gravity BH1:Binary Black Holes as Sources of Pablo Laguna, Anatoly M.
    [Show full text]
  • 81 EMBARGOED UNTILLTHURSDAY JULY 4 20:00 CET Nijmegen, July 2, 2013 Farewell Greeting from a Dying Star
    PB 2012 - 81 EMBARGOED UNTILLTHURSDAY JULY 4 20:00 CET Nijmegen, July 2, 2013 Farewell greeting from a dying star – Scientists suggest explanation for mysterious radio flashes Mysterious bright radio flashes that appear for only a brief moment on the sky and do not repeat could be the final farewell greetings of a massive star collapsing into a black hole, astronomers from Nijmegen and Potsdam argue. Radio telescopes have picked up some bright radio flashes that appear for only a brief moment on the sky and do not repeat. Scientists have since wondered what causes these unusual radio signals. An article in this week’s issue of ‘Science’ suggests that the source of the flashes lies deep in the early cosmos, and that the short radio burst are extremely bright. However, the question of which cosmic event could produce such a bright radio emission in such a short time remained unanswered. The astrophysicists Heino Falcke from Radboud University Nijmegen and Luciano Rezzolla from the Max Planck Institute for Gravitational Physics in Potsdam provide a solution for the riddle. They propose that the radio bursts could be the final farewell greetings of a supramassive rotating neutron star collapsing into a black hole. Spinning star withstands collapse Neutron stars are the ultra-dense remains of a star that has undergone a supernova explosion. They are the size of a small city but have up to two times the mass of our Sun. However, there is an upper limit on how massive neutron stars can become. If they are formed above a critical mass of more than two solar masses, they are expected to collapse immediately into a black hole.
    [Show full text]
  • A Shot in the Dark: the First Image of a Black Hole
    A Shot in the Dark: The First etry (VLBI) (visit EHT’s home page for more information[14]). VLBI create a collection of radio Image of a Black Hole wave detections that when pieced together created Written by Priscilla Dohrwardt a ”symphony” of noise (i.e radio waves). The black hole in question is only a mere 55 As Johnny Cash once said, ”I fell into a burning million light years from earth in the Messier 87 ring of fire” and on April 10th, so did the world. galaxy. It is a supermassive black hole, weighing The first ever black hole image graces us with a in at 6.5 billion times the mass of our sun. To put black interior surrounded by what is referred to as that in perspective, the center of the black hole a ring of fire. is about the size of the Milky Way Galaxy. Not only are we all astonished by this mammoth, but even Professor Heino Falcke, the man behind the project, said, ”It is one of the heaviest black holes that we think exists. It is an absolute monster, the heavyweight champion of black holes in the Uni- verse” [15]. The team who captured the iconic black hole image happened to be in a collaborative project between NASA, MIT and various other partnered The first image of a black hole, located in countries within the National Science Foundation. the Messier 87 galaxy was captured by the They used 8 different radio telescopes around the Event Horizon Telescope collaboration. Credits: world to collect an array of information.
    [Show full text]
  • Ultimate Precision in Cosmic-Ray Radio Detection - the SKA Tim Huege, Justin D
    Ultimate precision in cosmic-ray radio detection - the SKA Tim Huege, Justin D. Bray, Stijn Buitink, David Butler, Richard Dallier, Ron D. Ekers, Torsten Enßlin, Heino Falcke, Andreas Haungs, Clancy W. James, et al. To cite this version: Tim Huege, Justin D. Bray, Stijn Buitink, David Butler, Richard Dallier, et al.. Ultimate precision in cosmic-ray radio detection - the SKA. 7th international workshop on Acoustic and Radio EeV Neutrino Detection Activities, Jun 2016, Groningen, Netherlands. pp.02003, 10.1051/epjconf/201713502003. hal-01584598 HAL Id: hal-01584598 https://hal.archives-ouvertes.fr/hal-01584598 Submitted on 15 Jun 2020 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Ultimate precision in cosmic-ray radio detection — the SKA Tim Huege1;?, Justin D. Bray2, Stijn Buitink3, David Butler4, Richard Dallier5;6, Ron D. Ekers7, Torsten Enßlin8, Heino Falcke9;10, Andreas Haungs1, Clancy W. James11, Lilian Martin5;6, Pra- gati Mitra3, Katharine Mulrey3, Anna Nelles12, Benoît Revenu5, Olaf Scholten13;14, Frank G. Schröder1, Steven Tingay15;16, Tobias Winchen3, and Anne Zilles4 1IKP, Karlsruher Institut für Technologie, Postfach 3640, 76021 Karlsruhe, Germany 2School of Physics & Astronomy, Univ. of Manchester, Manchester M13 9PL, United Kingdom 3Astrophysical Institute, Vrije Universiteit Brussel, Pleinlaan 2, 1050 Brussels, Belgium 4EKP, Karlsruher Institut für Technologie, Kaiserstr.
    [Show full text]
  • Grailquest: Hunting for Atoms of Space and Time Hidden In
    Voyage 2050 - long term plan in the ESA science programme GrailQuest: hunting for Atoms of Space and Time hidden in the wrinkle of Space{Time A swarm of nano/micro/small{satellites to probe the ultimate structure of Space-Time and to provide an all-sky monitor to study high energy astrophysics phenomena Contact Scientist: Luciano Burderi Dipartimento di Fisica, Universit`adegli Studi di Cagliari SP Monserrato-Sestu km 0.7, 09042 Monserrato, Italy Tel.: +39-070-6754854 Fax: +39-070-510171 E-mail: [email protected] 2 Contact Scientist: Luciano Burderi Core Proposing Team: Luciano Burderi Dipartimento di Fisica, Universit`adegli Studi di Cagliari, SP Monserrato-Sestu km 0.7, 09042 Monserrato, Italy Andrea Sanna Dipartimento di Fisica, Universit`adegli Studi di Cagliari, SP Monserrato-Sestu km 0.7, 09042 Monserrato, Italy Tiziana Di Salvo Universit`adegli Studi di Palermo, Dipartimento di Fisica e Chimica, via Archirafi 36, 90123 Palermo, Italy Lorenzo Amati INAF-Osservatorio di Astrofisica e Scienza dello Spazio di Bologna, Via Piero Gobetti 93/3, I-40129 Bologna, Italy Giovanni Amelino-Camelia Dipartimento di Fisica Ettore Pancini, Universit`adi Napoli \Federico II", and INFN, Sezione di Napoli, Complesso Univ. Monte S. Angelo, I-80126 Napoli, Italy Marica Branchesi Gran Sasso Science Institute, I-67100 L`Aquila, Italy Salvatore Capozziello Dipartimento di Fisica, Universit`adi Napoli \Federico II", Complesso Universitario di Monte SantAngelo, Via Cinthia, 21, I-80126 Napoli, Italy Eugenio Coccia Gran Sasso Science Institute, I-67100 L`Aquila, Italy Monica Colpi Dipartimento di Fisica \G. Occhialini", Universit`adegli Studi Milano - Bicocca, Piazza della Scienza 3, Milano, Italy Enrico Costa INAF-IAPS,Via del Fosso del Cavaliere 100, I-00133 Rome, Italy Paolo De Bernardis Physics Department, Universit`adi Roma La Sapienza, Ple.
    [Show full text]
  • Event Horizon Telescope: the Black Hole Seen Round the World
    EVENT HORIZON TELESCOPE: THE BLACK HOLE SEEN ROUND THE WORLD HEARING BEFORE THE COMMITTEE ON SCIENCE, SPACE, AND TECHNOLOGY HOUSE OF REPRESENTATIVES ONE HUNDRED SIXTEENTH CONGRESS FIRST SESSION MAY 16, 2019 Serial No. 116–19 Printed for the use of the Committee on Science, Space, and Technology ( Available via the World Wide Web: http://science.house.gov U.S. GOVERNMENT PUBLISHING OFFICE 36–301PDF WASHINGTON : 2019 COMMITTEE ON SCIENCE, SPACE, AND TECHNOLOGY HON. EDDIE BERNICE JOHNSON, Texas, Chairwoman ZOE LOFGREN, California FRANK D. LUCAS, Oklahoma, DANIEL LIPINSKI, Illinois Ranking Member SUZANNE BONAMICI, Oregon MO BROOKS, Alabama AMI BERA, California, BILL POSEY, Florida Vice Chair RANDY WEBER, Texas CONOR LAMB, Pennsylvania BRIAN BABIN, Texas LIZZIE FLETCHER, Texas ANDY BIGGS, Arizona HALEY STEVENS, Michigan ROGER MARSHALL, Kansas KENDRA HORN, Oklahoma RALPH NORMAN, South Carolina MIKIE SHERRILL, New Jersey MICHAEL CLOUD, Texas BRAD SHERMAN, California TROY BALDERSON, Ohio STEVE COHEN, Tennessee PETE OLSON, Texas JERRY MCNERNEY, California ANTHONY GONZALEZ, Ohio ED PERLMUTTER, Colorado MICHAEL WALTZ, Florida PAUL TONKO, New York JIM BAIRD, Indiana BILL FOSTER, Illinois JAIME HERRERA BEUTLER, Washington DON BEYER, Virginia JENNIFFER GONZA´ LEZ-COLO´ N, Puerto CHARLIE CRIST, Florida Rico SEAN CASTEN, Illinois VACANCY KATIE HILL, California BEN MCADAMS, Utah JENNIFER WEXTON, Virginia (II) CONTENTS May 16, 2019 Page Hearing Charter .....................................................................................................
    [Show full text]
  • Professor Heino Falcke the First Image of a Black Hole
    University of Oxford The 19th Hintze Lecture Professor Heino Falcke Radboud University, Nijmegen The First Image of a Black Hole Thursday 14th November 2019 at 17:30 (to be seated by 17:20) Martin Wood Lecture Theatre Followed by a reception in Clarendon Laboratory, the foyer of the Martin Wood Parks Road, Oxford Lecture Theatre Abstract: One of the most bizarre, but perhaps also most fundamental predictions of Einstein’s theory of general relativity are black holes. They are extreme concentrations of matter with a gravitational attraction so strong, that not even light can escape. The inside of black holes is shielded from observations by an event horizon, a virtual one-way membrane through which matter, light and information can enter but never leave. This loss of information, however, contradicts some basic tenets of quantum physics. Does such an event horizon really exist? What are its effects on the ambient light and surrounding matter? How does a black hole really look? Can one see it? Indeed, recently we have made the first image of a black hole and detected its dark shadow in the radio galaxy M87 with the global Event Horizon Telescope experiment. Detailed supercomputer simulations faithfully reproduce these observations. Simulations and observations together provide strong support for the notion that we are literally looking into the abyss of the event horizon of a supermassive black hole. The talk will review the latest results of the Event Horizon Telescope, its scientific implications and future expansions of the array. Heino Falcke is professor of radio astronomy at the Radboud University in Nijmegen, the Netherlands.
    [Show full text]
  • Cerncourier V O L U M E 5 3 N U M B E R 7 S E P T E M B E R 2 0 1 3 CERN Courier September 2013
    CERN Courier September 2013 Astrowatch C OMPILED BY M ARC TÜRLER , ISDC AND O BSERVATORY OF THE U NIVERSITY OF G ENEVA Your local provider for “All Things Vacuum” Hydra~Cool™ Revolutionary Water Cooling Do fast radio bursts signal black-hole formation? Founded in 1954, the Kurt J. Lesker Company has We are pleased to announce Hydra-Cool™ our cost evolved into a global leader in the design and effective technically superior method of cooling vacuum components. Astronomers using the 64-m Parkes radio 10 times less frequent than core-collapse manufacture of vacuum technology solutions for telescope in Australia have detected radio supernovae (CERN Courier January/ research and production applications. transients with a duration of only 4 ms. February 2006 p10) but a thousand times Our new process allows us to double the surface area These fast radio bursts (FRBs) are a recently more frequent than GRBs. being cooled. With improved water flow the technique discovered class of mysterious sources that With only these characteristics and the Through our four divisions – Vacuum Mart, Process are found at cosmological distances. Now, fact that there is no known transient detected Equipment, Materials and Manufacturing – we provide dramatically reduces the chance of crevice crack two theorists suggest that FRBs are the simultaneously at other wavelengths, it is the most complete line of products and service solutions corrosion – therefore extending the life of a chamber. last signal emitted by neutron stars as they challenging to speculate on the nature of the collapse to form black holes. objects producing FRBs. The brevity of the in the vacuum industry worldwide.
    [Show full text]
  • Advancing Astrophysics with the Square Kilometre Array
    Advancing Astrophysics with the Square Kilometre Array 8-13 June 2014 Giardini Naxos, Italy #skascicon14 Abstracts Book ISTITUTO NAZIONALE DI ASTROFISICA INAF NATIONAL INSTITUTE FOR ASTROPHYSICS SESSION 1: Chair – Jonathan Pritchard The Cosmic Dawn and Epoch of Reionisation with SKA Leon Koopmans1;*, and the EoR Working Group 1 Kapteyn Astronomical Institute, University of Groningen, The Netherlands * Presenter E-mail contact: koopmans at astro.rug.nl Concerted effort is currently ongoing to open up the Epoch of Reionization (z 15- Ø 6) for studies with IR and radio telescopes. Whereas IR detections have been made of sources (Ly- emitters, quasars and drop-outs) in this redshift regime, in relatively small fields of view, no direct detection of neutral hydrogen via the redshifted 21-cm line has yet been established. Such a direct detection is expected in the coming years with ongoing surveys and will open up the entire universe from z 6-200 for astrophysical Ø and cosmological studies, opening not only the EoR, but also its preceding Cosmic Dawn (z 40-15) and possibly even the later phases of the Dark Ages (z 200-40), leaving Ø Ø only the “Age of Ignorance” (z 1100-200) inaccessible to astronomers. All currently Ø ongoing experiments attempt statistical detections of the 21-cm signal during the EoR, with limited signal-tonoise. Direct imaging, except maybe on the largest (degree) scales at lower redshift, will remain out of reach. The Square Kilometre Array (SKA), however, will revolutionize the field, and allow direct imaging of neutral hydrogen from scales of arc-minutes to degrees over most of the redshift range z 6-30.
    [Show full text]