Thermodynamics and collapse of self-gravitating Brownian particles in D dimensions
Abstract
We address the thermodynamics (equilibrium density profiles, phase diagram, instability analysis...) and the collapse of a self-gravitating gas of Brownian particles in D dimensions, in both canonical and microcanonical ensembles. In the canonical ensemble, we derive the analytic form of the density scaling profile which decays as f(x)=x-α, with alpha=2. In the microcanonical ensemble, we show that f decays as f(x)=x-αmax, where αmax is a non-trivial exponent. We derive exact expansions for alphamax and f in the limit of large D. Finally, we solve the problem in D=2, which displays rather rich and peculiar features.
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