Astronomy and Astrophysics – Astrophysics
Scientific paper
2006-11-28
Astropart.Phys.27:429-439,2007
Astronomy and Astrophysics
Astrophysics
minor revision; Astropart. Phys. in press
Scientific paper
10.1016/j.astropartphys.2007.01.
In this work we study the individual contribution to diffuse $\gamma$-ray emission from the secondary products in hadronic interactions generated by cosmic rays (CRs), in addition to the contribution of $\pi^0$ decay via the decay mode $\pi^0 \to 2\gamma$. For that purpose we employ the Monte Carlo particle collision code DPMJET3.04 to determine the multiplicity spectra of various secondary particles with $\gamma$'s as the final decay state, that result from inelastic collisions between cosmic-ray protons and Helium nuclei and the interstellar medium with standard composition. We thus derive an easy-to-use $\gamma$-ray production matrix for cosmic ray up to about 10 PeV, that can be used to interpret the $\gamma$-ray spectra of diffuse galactic emission and supernova remnants (SNR). We apply the $\gamma$-ray production matrix to the GeV excess in diffuse galactic $\gamma$-rays that was seen with EGRET. Although the non-$\pi^0$ contributions to the total emission have a different spectrum than the $\pi^0$-decay component, they are insufficient to explain the GeV excess. We also test the hypothesis that the TeV-band $\gamma$-ray emission of the shell-type SNR RX J1713-3946, that was observed with HESS, is caused by shock-accelerated hadronic cosmic rays. This scenario implies a very high efficacy of particle acceleration, so the particle spectrum is expected to continuously harden toward high energies on account of cosmic-ray modification of the shock. Using the $\chi^2$ statistic we find that a continuously softening spectrum is strongly preferred, in contrast to expectations. A hardening spectrum has about 1% probability to explain the HESS data, but then only if a hard cut-off at 50-100 TeV is imposed on the particle spectrum.
Daniels C. D.
Huang Chang-Yin
Park Sang Eon
Pohl Mario
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