| Magnetic fields and cosmic rays in clusters of galaxies (2009) | |||||||||
Abstract | |||||||||
| We argue that the observed correlation between the radio luminosity and the X-ray luminosity in radio emitting galaxy clusters implies that the radio emission is due to secondary electrons that are produced by p-p interactions and lose their energy by emitting synchrotron radiation in a strong magnetic field, B>(8\pi a T_{CMB}^4)^{1/2}\simeq 3\muG. We construct a simple model that naturally explains the correlation, and show that the observations provide stringent constraints on cluster magnetic fields and cosmic rays (CRs): Within the cores of clusters, the ratio beta_{core} between the CR energy (per logarithmic particle energy interval) and the thermal energy is beta_{core}\sim 10^{-4}; The source of these CRs is most likely the cluster accretion shock, which is inferred to deposit in CRs ~ a few percent of the thermal energy it generates; The diffusion time of 100 GeV CRs over scales \gtrsim100 kpc is not short compared to the Hubble time; Cluster magnetic fields are enhanced by mergers to \gtrsim 1 % of equipartition, and decay (to . Comment: 6 pages, 1 figure | |||||||||
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