Properties of condensed matter from fundamental physical constants

IF 35 1区 物理与天体物理 Q1 PHYSICS, CONDENSED MATTER Advances in Physics Pub Date : 2021-10-02 DOI:10.1080/00018732.2023.2192172
K. Trachenko
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引用次数: 5

Abstract

Fundamental physical constants play a profound role in physics. For example, they govern nuclear reactions, formation of stars, nuclear synthesis and stability of biologically vital elements. These are high-energy processes discussed in particle physics, astronomy and cosmology. More recently, it was realised that fundamental physical constants extend their governing reach to low-energy processes and properties operating in condensed matter systems, often in an unexpected way. These properties are those we experience daily and can routinely measure, including viscosity, thermal conductivity, elasticity and sound. Here, we review this work. We start with the lower bound on liquid viscosity, its origin and show how to relate the bound to fundamental physical constants. The lower bound of kinematic viscosity represents the global minimum on the phase diagram. We show how this result answers the long-standing question considered by Purcell and Weisskopf, namely why viscosity never falls below a certain value. An accompanying insight is that water viscosity and water-based life are well attuned to fundamental constants including the Planck constant. We then discuss viscosity minima in liquid He above and below the λ-point. We subsequently consider a very different property, thermal diffusivity, and show that it has the same minimum fixed by fundamental physical constants as viscosity. We also discuss bounds related to elastic properties, elastic moduli and their analogues in low-dimensional systems, and show how these bounds are related to the upper bound for the speed of sound. We conclude with listing ways in which the discussion of fundamental constants and bounds advance physical theories.
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从基本物理常数看凝聚态物质的性质
基本物理常数在物理学中起着深远的作用。例如,它们控制着核反应、恒星的形成、核合成和生物重要元素的稳定性。这些是粒子物理学、天文学和宇宙学中讨论的高能过程。最近,人们意识到,基本物理常数通常以一种意想不到的方式将其控制范围扩展到凝聚态系统中运行的低能过程和性质。这些特性是我们每天都会经历的,并且可以定期测量,包括粘度、导热率、弹性和声音。在这里,我们回顾一下这项工作。我们从液体粘度的下界开始,它的起源,并展示了如何将下界与基本物理常数联系起来。运动粘度的下限表示相图上的全局最小值。我们展示了这个结果如何回答Purcell和Weisskopf长期以来考虑的问题,即为什么粘度永远不会低于某个值。一个附带的见解是,水的粘度和水性生命与包括普朗克常数在内的基本常数非常协调。然后我们讨论了液体He在λ-点以上和以下的粘度极小值。随后,我们考虑了一个非常不同的性质,即热扩散率,并表明它具有与粘度相同的由基本物理常数固定的最小值。我们还讨论了低维系统中与弹性性质、弹性模量及其类似物有关的边界,并展示了这些边界如何与声速的上界有关。最后,我们列出了讨论基本常数和边界推进物理理论的方法。
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来源期刊
Advances in Physics
Advances in Physics 物理-物理:凝聚态物理
CiteScore
67.60
自引率
0.00%
发文量
1
期刊介绍: Advances in Physics publishes authoritative critical reviews by experts on topics of interest and importance to condensed matter physicists. It is intended for motivated readers with a basic knowledge of the journal’s field and aims to draw out the salient points of a reviewed subject from the perspective of the author. The journal''s scope includes condensed matter physics and statistical mechanics: broadly defined to include the overlap with quantum information, cold atoms, soft matter physics and biophysics. Readership: Physicists, materials scientists and physical chemists in universities, industry and research institutes.
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