Astronomy and Astrophysics – Astrophysics
Scientific paper
2005-06-04
Astronomy and Astrophysics
Astrophysics
30 pages, 4 figures, accepted--ApJ
Scientific paper
10.1086/432596
This paper describes how active galactic nuclei can heat galaxy-cluster plasmas by driving convection in the intracluster medium. A model is proposed in which a central supermassive black hole accretes intracluster plasma at the Bondi rate and powers a radio source. The central radio source produces cosmic rays, which mix into the thermal plasma. The cosmic-ray luminosity is proportional to the mass accretion rate. The cosmic-ray pressure gradient drives convection, which causes plasma heating. It is assumed that plasma heating balances radiative cooling. The plasma heating rate is self-regulating because the Bondi accretion rate is a decreasing function of the specific entropy near the cluster center; if heating exceeds cooling, then the central entropy increases, the Bondi rate and cosmic-ray luminosity decrease, and the convective heating rate is reduced. This paper focuses on the role of intracluster magnetic fields, which affect convection by causing heat and cosmic rays to diffuse primarily along magnetic field lines. A new stability criterion is derived for convection in a thermal-plasma/cosmic-ray fluid, and equations for the average fluid properties in a convective cluster are obtained with the use of a nonlocal two-fluid mixing length theory. Numerical solutions of the model equations compare reasonably well with observations without requiring fine tuning of the model parameters.
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