Photon emission in a cascade from relativistic protons initiated by residual thermal photons in gamma-ray bursts
Mar, 200325 pages
Published in:
- Publ.Astron.Soc.Jap. 55 (2003) 433
e-Print:
- astro-ph/0303195 [astro-ph]
Report number:
- OU-TAP-197
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Abstract: (arXiv)
Gamma-ray bursts are generally considered to be the result of internal shocks generated in an inhomogeneous relativistic outflow that arises from a fireball. In such shocks, the Fermi acceleration of protons is naturally expected to be at least as efficient as that of electrons. We investigate the consequences of proton acceleration in the residual thermal photon field of a fireball, especially those on the emission spectra of photons. In contrast to most other studies, we do not invoke a direct electron acceleration in shock waves. We show that the residual radiation field of the fireball can ignite the photopion production and subsequent cascade, and that the photons emitted in this process further enhance the photon-initiated cascade. We find that Fermi accelerated protons with eV efficiently bring their energy into pion production and subsequent photon emission. The particles cascading from the pions emit photons over a wide energy range. The photons emitted from electron--positron pairs distribute continuously from the GeV range down to the X-ray range, while muons can emit gamma-rays by synchrotron radiation with a break at around 1--10 MeV. We also discuss several radiation processes which may possibly produce a break feature in the MeV range, as observed in addition to muon synchrotron radiation.Note:
- Submitted to Publ.Astron.Soc.Jap
- gamma ray: burst
- p: cosmic radiation
- cosmic radiation: acceleration
- cosmic radiation: cascade
- photon: emission
- fireball: radiation
- shock waves
- pi: photoproduction
- threshold: energy
- muon: synchrotron radiation
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