Ultra high energy neutrinos from gamma ray bursts

B. Paczyński; B. Paczyński; C. Quigg; D. A. Frail; E. Costa; E. Maoz; E. Waxman; E. Waxman; E. Waxman; G. J. Fishman; G. Sigl; G. T. Zatsepin; J. Goodman; J. J. Quenby; J. Linsley; J. Linsley; J. P. Rachen; J. van Paradijs; K. Greisen; M. Vietri; M. Vietri; M. Vietri; M. Vietri; Mario Vietri; P. Mészáros; P. Mészáros; R. J. Protheroe; R. J. Protheroe; S. Yoshida; T. Piran; Y. Takahashi

research

Ultra high energy neutrinos from gamma ray bursts

Authors: B. Paczyński
B. Paczyński
C. Quigg
D. A. Frail
E. Costa
E. Maoz
E. Waxman
E. Waxman
E. Waxman
G. J. Fishman
G. Sigl
G. T. Zatsepin
J. Goodman
J. J. Quenby
J. Linsley
J. Linsley
J. P. Rachen
J. van Paradijs
K. Greisen
M. Vietri
M. Vietri
M. Vietri
M. Vietri
Mario Vietri
P. Mészáros
P. Mészáros
R. J. Protheroe
R. J. Protheroe
S. Yoshida
T. Piran
Y. Takahashi
Publication date: 6 March 1998
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Protons accelerated to high energies in the relativistic shocks that generate gamma ray bursts photoproduce pions, and then neutrinos in situ. I show that ultra high energy neutrinos (> 10^19 eV) are produced during the burst and the afterglow. A larger flux, also from bursts, is generated via photoproduction off CMBR photons in flight but is not correlated with currently observable bursts, appearing as a bright background. Adiabatic/synchrotron losses from protons/pions/muons are negligible. Temporal and directional coincidences with bursts detected by satellites can separate correlated neutrinos from the background.Comment: Adiabatic/synchrotron losses from protons/pions/muons shown to be negligible. Accepted for publication in Phys. Rev. Letters. RevTe

Similar works

Full text

Available Versions

Crossref

info:doi/10.1103%2Fphysrevlett...

Last time updated on 03/01/2020