Astronomy and Astrophysics – Astrophysics
Scientific paper
2004-07-13
Astronomy and Astrophysics
Astrophysics
12 pages, 7 figures, submitted to the Astrophysical Journal
Scientific paper
A numerical simulation model of the injection and cooling of nonthermal particles energized by shocks formed in merging clusters of galaxies is used to fit radio and X-ray data observed from the Coma cluster of galaxies. The results are consistent with a primary merger-shock origin for both the diffuse radio halo emission and the hard X-ray excess measured with {\it Beppo-SAX} and {\it RXTE}. For equal (1%) efficiency of power injected in nonthermal protons and electrons, we predict that the Coma cluster of galaxies will be significantly detected with the space-based observatory {\it GLAST}, and marginally detectable with the ground-based $\gamma$-ray observatories {\it VERITAS} and {\it HESS}. Significant TeV detections are possible if the nonthermal proton intensity is greater due to a larger efficiency of nonthermal hadron acceleration, or to past merger events. The nonthermal hadronic content in Coma is also revealed by a weak, hard secondary emission component at $\sim 10$ -- 100 GHz. The spectral softening of the radio emission at large radii from the Coma cluster core derives in this scenario from the decreasing shock speed away from cluster center for an on-axis merger event. We discuss differences between merger and delayed turbulence models.
Berrington Robert Charles
Dermer Carles D.
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