Construction of the Formalism of Statistical Thermodynamics of Nonextensive Systems Based on the Kaniadakis Kappa-Entropy

IF 0.6 4区物理与天体物理 Q4 ASTRONOMY & ASTROPHYSICS

Solar System Research Pub Date : 2025-03-20 DOI:10.1134/S0038094624601191

A. V. Kolesnichenko

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Abstract

Within the framework of the nonextensive Kaniadakis statistics based on parametric kappa-entropy, it has been shown how to obtain deformed thermodynamics of complex anomalous systems and determine its properties. The main mathematical properties of the κ-logarithm and κ-exponent, as well as other related functions arising in the development of the Kaniadakis statistical mechanics, have been presented. As a result, a generalization has been obtained for the nonextensive case of the zero law of thermodynamics for two independent subsystems in thermal contact and the so-called physical temperature has been introduced, which is different from the inversion of the Lagrange multiplier \(\beta \). With the involvement of the generalized first law of thermodynamics and the Legendre transformation and on the basis of the introduced Clausius entropy, new thermodynamic relations have been obtained, which differ from the relations previously derived by the traditional method for nonextensive statistics, which are unsatisfactory from the point of view of macroscopic thermodynamics. Based on the convexity property of the Bergman divergence, spontaneous transitions between stationary states of a complex \(\kappa \)-system have been studied and the Gibbs theorem and the Boltzmann H-theorem have been proven.

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在以参数卡帕熵为基础的非广延卡尼达基斯统计框架内，已经证明了如何获得复杂反常系统的变形热力学并确定其特性。介绍了κ-对数和κ-指数的主要数学特性，以及在卡尼达基斯统计力学发展过程中出现的其他相关函数。因此，对于热接触中的两个独立子系统的热力学零定律的非广义情况，已经得到了广义化，并引入了所谓的物理温度，它不同于拉格朗日乘数\(\beta \)的反演。在广义热力学第一定律和勒让德变换的参与下，在引入的克劳修斯熵的基础上，得到了新的热力学关系，这些关系不同于以前用传统方法推导出的非广延性统计关系，从宏观热力学的角度来看，这些关系并不令人满意。基于伯格曼发散的凸特性，研究了复杂（\kappa \）系统的静止状态之间的自发转变，并证明了吉布斯定理和玻尔兹曼H定理。

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来源期刊

Solar System Research 地学天文-天文与天体物理

CiteScore

1.60

自引率

33.30%

发文量

审稿时长

6-12 weeks

期刊介绍： Solar System Research publishes articles concerning the bodies of the Solar System, i.e., planets and their satellites, asteroids, comets, meteoric substances, and cosmic dust. The articles consider physics, dynamics and composition of these bodies, and techniques of their exploration. The journal addresses the problems of comparative planetology, physics of the planetary atmospheres and interiors, cosmochemistry, as well as planetary plasma environment and heliosphere, specifically those related to solar-planetary interactions. Attention is paid to studies of exoplanets and complex problems of the origin and evolution of planetary systems including the solar system, based on the results of astronomical observations, laboratory studies of meteorites, relevant theoretical approaches and mathematical modeling. Alongside with the original results of experimental and theoretical studies, the journal publishes scientific reviews in the field of planetary exploration, and notes on observational results.