具有多组分相互作用阶参数的相变现象学模型：奇点理论方法的构建与分类

IF 0.4 4区物理与天体物理 Q4 PHYSICS, MULTIDISCIPLINARY

Moscow University Physics Bulletin Pub Date : 2024-08-15 DOI:10.3103/S0027134924700474

S. V. Pavlov

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引用次数: 0

摘要

摘要构建了单组分和双组分两种相互作用阶次参数的相变现象学模型。该模型的构建是基于取决于外部热力学条件的控制参数的数量，通过等变灾难理论（奇异理论）的方法进行的，同时考虑到了阶次参数的对称性。根据控制参数的数量对现象模型进行了分类。构建了模型的相图，并计算了热容的理论温度依赖性，结果表明它与\(textrm{Rb}_{2}\textrm{KInF}_{6}\)elpasolite 晶体的实验依赖性有着令人满意的定性对应关系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Phenomenological Models of Phase Transitions with Multicomponent Interacting Order Parameters: Construction and Classification by Methods of Singularity Theory

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Phenomenological Models of Phase Transitions with Multicomponent Interacting Order Parameters: Construction and Classification by Methods of Singularity Theory

Phenomenological models of phase transitions for two interacting order parameters, one-component and two-component, are constructed. The construction was carried out based on the number of control parameters depending on external thermodynamic conditions by methods of the equivariant catastrophe theory (singularity theory), taking into account the symmetry of the order parameters. The classification of phenomenological models according to the number of control parameters is carried out. Phase diagrams of the models are constructed and the theoretical temperature dependence of the heat capacity is calculated, which shows a satisfactory qualitative correspondence with the experimental dependence in the \(\textrm{Rb}_{2}\textrm{KInF}_{6}\) elpasolite crystal.

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来源期刊

Moscow University Physics Bulletin PHYSICS, MULTIDISCIPLINARY-

CiteScore

0.70

自引率

0.00%

发文量

129

审稿时长

6-12 weeks

期刊介绍： Moscow University Physics Bulletin publishes original papers (reviews, articles, and brief communications) in the following fields of experimental and theoretical physics: theoretical and mathematical physics; physics of nuclei and elementary particles; radiophysics, electronics, acoustics; optics and spectroscopy; laser physics; condensed matter physics; chemical physics, physical kinetics, and plasma physics; biophysics and medical physics; astronomy, astrophysics, and cosmology; physics of the Earth’s, atmosphere, and hydrosphere.