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Tracing Cosmic accelerators with Decaying Neutrons

Ultrahigh energy neutrons and pions are likely to be produced in particle interactions inside cosmic ray sources and subsequently decay to neutrinos and other secondary particles ($π^\pm \rightarrow μ^\pmν_μ(\bar ν_μ),μ^\pm \rightarrow e^\pm \barν_μ(ν_μ) ν_e(\barν_e)$). In high magnetic fields of the cosmic acceleration sites, the ultrahigh energy charged particles may lose energy significantly due to synchrotron radiation before decay. We show that for gamma ray bursts in the internal shock model the flux of very high energy antineutrinos ($\bar ν_e$) produced from decaying ultrahigh energy neutrons can be more than the total neutrino flux produced in pion decay depending on the values of their Lorentz factors, luminosities and variability times.

preprint2010arXivOpen access
Reetanjali MoharanaNayantara Gupta
hep-phastro-ph.HE
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Reetanjali MoharanaNayantara Gupta

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