A Gamma-Ray Burst/Pulsar for Cosmic Ray Positrons with a Dark Matter-Like Spectrum(Astrophysics and Cosmology)

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概要

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• We propose that a nearby gamma-ray burst (GRB) or GRB-like (old, single, and short-lived) pulsar, supernova remnant, or microquasar about 10^<5-6> years ago may be responsible for the excesses of cosmic ray positrons and electrons recently observed in the PAMELA, ATIC/PPB-BETS, Fermi, and HESS experiments. We can reproduce the smooth Fermi/HESS spectra as well as the spiky ATIC/PPB-BETS spectra. The spectra have a sharp cutoff that is similar to the dark matter predictions, sometimes together with a line (not similar), since high-energy cosmic rays cool fast where the cutoff/line energy marks the source age. A GRB-like astrophysical source is expected to have a small but finite spread in the cutoff/line as well as anisotropy in the cosmic ray and diffuse gamma-ray flux, providing a method for the Fermi and future CALET experiments to discriminate between dark matter and astrophysical origins.

• 2010-04-25

著者

• IOKA Kunihito

  KEK Theory Center and the Graduate University for Advanced Studies (Sokendai)

• Ioka Kunihito

  Kek Theory Center And Graduate University For Advanced Studies (sokendai)

関連論文

• A Gamma-Ray Burst/Pulsar for Cosmic Ray Positrons with a Dark Matter-Like Spectrum(Astrophysics and Cosmology)
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• A Gamma-Ray Burst/Pulsar for Cosmic Ray Positrons with a Dark Matter-Like Spectrum
• Gamma-Ray Burst without Baryonic and Magnetic Load?
• Coherent Radiation in Gamma-Ray Bursts and Relativistic Collisionless Shocks

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