COSMOLOGICAL GAMMA RAY BURSTS AND THE HIGHEST ENERGY COSMIC RAYS

A. M. Hillas; A. Shemi; B. Paczyński; B. Paczyński; B. Paczyński; B. Paczyński; C. A. Meegan; D. Eichler; D. J. Bird; D. J. Bird; E. Asseo; E. Cohen; E. E. Fenimore; E. Fermi; E. Woods; Eli Waxman; F. A. Aharonian; J. Goodman; J. P. Norris; M. Rees; M. Rees; N. Hayashida; N. N. Efimov; P. Mészáros; P. Mészáros; P. Sommers; R. M. Kulsrud; R. Narayan; S. Mao; S. Woosley; T. Piran; T. Piran

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COSMOLOGICAL GAMMA RAY BURSTS AND THE HIGHEST ENERGY COSMIC RAYS

Authors: A. M. Hillas
A. Shemi
B. Paczyński
B. Paczyński
B. Paczyński
B. Paczyński
C. A. Meegan
D. Eichler
D. J. Bird
D. J. Bird
E. Asseo
E. Cohen
E. E. Fenimore
E. Fermi
E. Woods
Eli Waxman
F. A. Aharonian
J. Goodman
J. P. Norris
M. Rees
M. Rees
N. Hayashida
N. N. Efimov
P. Mészáros
P. Mészáros
P. Sommers
R. M. Kulsrud
R. Narayan
S. Mao
S. Woosley
T. Piran
T. Piran
Publication date: 1 January 1995
Publisher: 'American Physical Society (APS)'
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Abstract

We discuss a scenario in which the highest energy cosmic rays (CR's) and cosmological

\gamma

-ray bursts (GRB's) have a common origin. This scenario is consistent with the observed CR flux above

10^{20}\text{eV}

, provided that each burst produces similar energies in

\gamma

-rays and in CR's above

10^{20}\text{eV}

. Protons may be accelerated by Fermi's mechanism to energies

\sim10^{20}\text{eV}

in a dissipative, ultra-relativistic wind, with luminosity and Lorentz factor high enough to produce a GRB. For a homogeneous GRB distribution, this scenario predicts an isotropic, time-independent CR flux.Comment: Phys. Rev. Lett. in press (Received: March 22, 1995; Accepted: May 17, 1995

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