关于基本粒子统计（玻色-爱因斯坦、费米-狄拉克、正则、大正则、中间）和相关分布的概率推导

Q2 Mathematics

Transactions of the Moscow Mathematical Society Pub Date : 2020-04-07 DOI:10.1090/mosc/316

V. Kolokoltsov

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引用次数: 0

摘要

将直观概率假设与经典热力学基本定律相结合，利用经典热力学基本定律将概率参数表示为热力学量，从而得到统计物理基本系综的简单统一推导，避免了任何极限过程、量子假设甚至统计熵最大化。这种观点也导致了相关粒子统计的一些相关类别。

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On a probabilistic derivation of the basic particle statistics (Bose–Einstein, Fermi–Dirac, canonical, grand-canonical, intermediate) and related distributions

Combining intuitive probabilistic assumptions with the basic laws of classical thermodynamics, using the latter to express probabilistic parameters in terms of the thermodynamic quantities, we get a simple unified derivation of the fundamental ensembles of statistical physics avoiding any limiting procedures, quantum hypothesis and even statistical entropy maximization. This point of view also leads to some related classes of correlated particle statistics.

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Transactions of the Moscow Mathematical Society Mathematics-Mathematics (miscellaneous)

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期刊介绍： This journal, a translation of Trudy Moskovskogo Matematicheskogo Obshchestva, contains the results of original research in pure mathematics.