Cold filaments in galaxy clusters: effects of heat conduction
Abstract
We determine the critical size lcrit of a filament of cold (T~104 K) gas that is in radiative equilibrium with X-ray emitting gas at temperatures Tout~106 - 108 K. Filaments smaller than lcrit will be rapidly evaporated, while longer ones will induce the condensation of the ambient medium. At fixed pressure P, lcrit increases as Tout(11/4), while at fixed Tout it scales as 1/P. It scales as f(1/2), where f is the factor by which the magnetic field depresses the thermal conductivity below Spitzer's benchmark value. For plausible values of f, lcrit is similar to the lengths of observed filaments. In a cluster such as Perseus, the value of lcrit increases by over an order of magnitude between the centre and a radius of 100 kpc. If the spectrum of seed filament lengths l is strongly falling with l, as is natural, then these results explain why filaments are only seen within a few kiloparsecs of the centres of clusters, and are not seen in clusters that have no cooling flow. We calculate the differential emission measure as a function of temperature for the interface between filaments and ambient gas of various temperatures. We discuss the implications of our results for the origin of the galaxy luminosity function.
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