Litcius/Paper detail

Generalized statistical mechanics of stellar systems

Kamel Ourabah

2022Physical review. E18 citationsDOI

Abstract

The observed distributions of stellar parameters, in particular, rotational and radial velocities, often depart from the Maxwellian (Gaussian) distribution. In the absence of a consistent statistical framework, these distributions are, in general, accounted for phenomenologically by employing power-law distributions, such as Tsallis or Kaniadakis distributions. Here we argue that the observed distributions correspond to locally Gaussian distributions, whose characteristic width is regarded as a statistical variable, in accordance with common knowledge that this parameter is mass dependent. The distributions arising within this picture correspond to superstatistics-a formalism emerging naturally in the context of self-gravitating media. We discuss in detail the distributions arising within this formalism and confront them with observational data of open clusters. We compute their moments and show that the Chandrasekhar-Münch relation remains invariant in this scenario. We also address the effect of these distributions on the thermalization of a massive body, e.g., a supermassive black hole, immersed in a stellar gas. We further discuss how the superstatistical picture clarifies certain ambiguities while offering a whole family of distributions (of which asymptotic power laws represent a special case), opening possibilities for fitting observational data.

Topics & Concepts

PhysicsChandrasekhar limitStatistical physicsGaussianClassical mechanicsStatistical mechanicsFormalism (music)Power lawTsallis statisticsProbability distributionAstrophysicsTheoretical physicsQuantum mechanicsStarsStatisticsWhite dwarfArtMathematicsVisual artsMusicalStatistical Mechanics and EntropyComplex Systems and Time Series AnalysisProbability and Statistical Research