Back to Search Start Over

An absence of neutrinos associated with cosmic-ray acceleration in gamma-ray bursts

Authors :
C. Walck
Todor Stanev
Dawn Williams
S. Hussain
J. W. Nam
F. Descamps
M. W. E. Smith
D. J. Koskinen
P. Berghaus
S. Boeser
S. Japaridze
S. Odrowski
Timo Karg
H. Landsman
R. Franke
S. Euler
S. Flis
H. A. B. Johansson
Christian Bohm
Aongus O'Murchadha
Jon Dumm
T. Waldenmaier
S. Westerhoff
Thomas K. Gaisser
G. B. Yodh
J. J. Beatty
S. Seunarine
M. Kowalski
A. Gross
Damian Pieloth
A. M. Brown
P. B. Price
K. Hoshina
H. S. Matis
L. Koepke
M. Danninger
D. Heereman
M. V. D'Agostino
G. C. Hill
J. Posselt
M. Stamatikos
D. Z. Besson
T. O. B. Schmidt
Glenn Spiczak
Larissa Paul
L. Schulte
Chris Wendt
T. Kowarik
D. Rutledge
M. Labare
Albrecht Karle
M. Schunck
Michael J. Baker
Klas Hultqvist
A. Marotta
D. Altmann
U. Naumann
K. Meagher
T. R. Wood
J. Kiryluk
Thomas Meures
N. van Eijndhoven
L. Gladstone
M. Richman
Francis Halzen
Reina H. Maruyama
K. H. Becker
Dirk Heinen
D. Seckel
S. Miarecki
P. Zarzhitsky
A. Piegsa
Kurt Woschnagg
Paul Evenson
Xinhua Bai
A. Goldschmidt
F. Rothmaier
Segev BenZvi
Carsten Rott
Dave Nygren
J. Miller
Spencer Klein
R. J. Lauer
O. Fadiran
M. Bissok
Markus Ahlers
A. R. Fazely
Tyce DeYoung
C. DeClercq
P. A. Toale
Hermann Kolanoski
J. A. Goodman
A. Silvestri
K. Mase
M. Merck
Xianwu Xu
G. Kroll
T. Degner
K. Rawlins
R. Hellauer
J. P. Huelss
M. L. Benabderrahmane
Darren Grant
Dmitry Chirkin
Jay Gallagher
R. Nahnhauer
Karen S. Caballero-Mora
Kara Hoffman
Y. Sestayo
Karen Andeen
S. Grullon
M. J. Carson
A. H. Cruz Silva
N. Milke
Jenni Adams
S. Schoeneberg
Sarah Nowicki
Alexander Kappes
C. Pérez de los Heros
Samvel Ter-Antonyan
James Madsen
A. Olivas
M. J. Larson
A. Homeier
S. Panknin
R. Stroem
Fabian Kislat
A. Stoessl
Markus Ackermann
J. Dreyer
S. Tilav
A. Schultes
O. Engdegård
J. C. Díaz-Vélez
Juanan Aguilar
Wolfgang Rhode
T. Gluesenkamp
Takao Kuwabara
Simona Toscano
R. Wasserman
Y. Abdou
Christopher Wiebusch
Nathan Whitehorn
S. Hickford
A. Schoenwald
A. Van Overloop
Kael Hanson
W. Huelsnitz
J. Daughhetee
Christian Spiering
T. Griesel
B. Christy
Seth M. Cohen
R. W. Ellsworth
Donglian Xu
K. Wiebe
A. Franckowiak
R. G. Stokstad
R. Wischnewski
Matt Dunkman
Steven W. Barwick
Teresa Montaruli
K. Helbing
T. Abu-Zayyad
T. Fischer-Wasels
Elisa Resconi
S. Bechet
B. Hoffmann
Dariusz Gora
Anatoli Fedynitch
A. Schukraft
K. Laihem
J. L. Bazo Alba
J. Berdermann
D. Bose
E. Jacobi
J. Luenemann
H. Taavola
J. Feintzeig
Dirk Ryckbosch
Subir Sarkar
P. Redl
M. Olivo
Paolo Desiati
T. Feusels
D. Berley
E. A. Strahler
Ignacio Taboada
E. Blaufuss
J. C. Davis
K. Beattie
O. Schulz
E. Middell
Elisa Bernardini
D. J. Boersma
M. Krasberg
J. E. Jacobsen
Marcos Santander
M. Ribordy
L. Gerhardt
J. P. Rodrigues
Matthias Wolf
T. Stezelberger
K. Han
Michael S. Bell
Kirill Filimonov
M. Vehring
D. F. Cowen
R. C. Bay
B. Ruzybayev
C. Ha
S. Yoshida
M. Casier
G. W. Sullivan
P. Meszaros
J. K. Becker
Allan Hallgren
Sandro Kopper
S. M. Movit
H. G. Sander
C. Colnard
Aya Ishihara
Rasha Abbasi
Chun Xu
Ch. Weaver
Chad Finley
M. Stueer
K. Schatto
G. Kohnen
J. Blumenthal
P. O. Hulth
J. Eisch
G. de Vries-Uiterweerd
Olga Botner
D. Tosi
B. Semburg
H. Wissing
Stijn Buitink
J. Auffenberg
Daniel Bindig
Gerald Przybylski
R. Morse
M. Zoll
Benedikt Riedel
Tim Ruhe
M. Walter
A. Rizzo
S. H. Seo
J. H. Koehne
F. Clevermann
J. P. Yanez
A. Haj Ismail
A. Tamburro
L. Brayeur
J. van Santen
J. Kunnen
Naoko Kurahashi
D. Bertrand
M. Wallraff
M. Voge
M. Gurtner
M. Dierckxsens
Physics
Elementary Particle Physics
Aguilar Sanchez, Juan
Montaruli, Teresa
Source :
NATURE, Nature 484, 351 (2012). doi:10.1038/nature11068, Nature, Vol. 484 (2012) pp. 351-354
Publication Year :
2012

Abstract

Gamma-Ray Bursts (GRBs) have been proposed as a leading candidate for acceleration of ultra high-energy cosmic rays, which would be accompanied by emission of TeV neutrinos produced in proton-photon interactions during acceleration in the GRB fireball. Two analyses using data from two years of the IceCube detector produced no evidence for this neutrino emission, placing strong constraints on models of neutrino and cosmic-ray production in these sources.<br />6 pages, 4 figures. Additional supplementary information (effective areas) is freely available with the published version. Version 2 supersedes the published version and fixes a small overestimation of the event rate from the Guetta et al. model in the 2010-2011 part of the model-dependent analysis, resulting in a new Fig. 1. Conclusions and all final results are unchanged.

Subjects

Subjects :
Physics::Instrumentation and Detectors
Astronomy
Astrophysics::High Energy Astrophysical Phenomena
Electronvolt
FOS: Physical sciences
Flux
high-energy neutrinos
Cosmic ray
ddc:500.2
Astrophysics
Astrophysics::Cosmology and Extragalactic Astrophysics
7. Clean energy
01 natural sciences
ddc:070
Icecube
Acceleration
Pion
cosmic rays
0103 physical sciences
Telescope
010303 astronomy & astrophysics
Very Energetic
High Energy Astrophysical Phenomena (astro-ph.HE)
Physics
Multidisciplinary
010308 nuclear & particles physics
High Energy Physics::Phenomenology
Search
Astrophysics::Instrumentation and Methods for Astrophysics
13. Climate action
Gamma Ray Bursts
High Energy Physics::Experiment
Neutrino
Gamma-ray burst
Astrophysics - High Energy Astrophysical Phenomena

Details

ISSN :
20102011 and 00280836
Volume :
484
Issue :
7394
Database :
OpenAIRE
Journal :
NATURE
Accession number :
edsair.doi.dedup.....5c16ef4b8ddf5a3bf32682e1f79ba16e
Full Text :
https://doi.org/10.1038/nature11068
Full Text Access
View/download PDF

Tools

Authors Abstract Subjects Details