Cooling Flows and Radio Mini-Halos in Clusters of Galaxies
Abstract
We apply to radio mini-halo candidates a model for electron re-acceleration in cooling flows (Gitti, Brunetti & Setti 2002). In agreement with the basic idea of the model, we find that the power required for the re-acceleration of the electron population is only a small fraction of the maximum power that can be extracted from the cooling flow (as estimated on the basis of the standard model). Observationally, we notice that the strongest radio mini-halos are found in association with the most powerful cooling flows, and that cooling flow powers are orders of magnitude larger than the integrated radio power. Possible effects of new Chandra and XMM-Newton estimates of M on this trend are considered: we conclude that even if earlier derived cooling rates were overestimated, cooling flow powers are still well above the radio powers emitted by mini-halos.
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