Magnetic Sunyaev-Zel'dovich effect in galaxy clusters

Abstract

This Letter explores influences of intracluster magnetic fields ( 1μG) submerged in the hot electron gas on classic Sunyaev-Zel'dovich effect (SZE) and thermal bremsstrahlung in X-ray emissions. As the Larmor frequency is much higher than all collision frequencies, the presence of magnetic field may lead to an anisotropic velocity distribution of hot electrons. For the two-temperature relativistic Maxwell-Boltzmann distribution, we compute modifications to the classical thermal SZE. Intracluster magnetic fields tend to enhance the SZE with steeper radial variations, which bear important consequences for cluster-based estimates of cosmological parameters. By applying the magnetic SZE theory to spectral observations of SZ and Chandra X-ray emissions from the galaxy cluster Abell 2163, a 30-40μG central core magnetic field B0 is predicted. For the SZ and Chandra X-ray spectral observations of the Coma cluster, our theoretical analysis is also consistent with an observationally inferred B0 10μG. As the magnetic SZE is redshift z independent, this mechanism might offer a potentially important and unique way of probing intracluster magnetic fields in the expanding universe.

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