Relativistic ions with power-law spectra explain radio phoenixes

Abstract

Radio phoenixes are filamentary sources in the intracluster medium (ICM) of galaxy clusters, often extending over >100 kpc, arising from fossil radio lobes. Their soft, curved spectrum is widely attributed to aged relativistic electrons recently accelerated or compressed, but at high frequencies is shown to approach a power-law. Moreover, the full, curved spectrum is naturally reproduced by secondary e from a pure power-law spectrum of relativistic ions, radiating in highly-magnetized filaments; this model provides a better fit to all phoenixes, with only three free parameters. Weaker magnetization shifts the curvature to low frequencies, explaining pure power-law phoenixes. Hadronic high-curvature phoenixes require e heating, by a factor 15 if at ICM pressure. The Compton- and π0-decay-peaked counterparts of hadronic phoenixes may be detectable as non-thermal X-rays and γ-rays.

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