老化过程的广义爱因斯坦关系

IF 5.4 1区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY
Jing-Dong Bao, Xiang-Rong Wang
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引用次数: 0

摘要

物理老化出现在许多系统中,从玻璃/粒状材料、闪烁量子点到激光冷却原子。老化是一个具有三个特征的过程:(i) 缓慢的非指数弛豫,(ii) 打破时间平移不变性,以及 (iii) 动态缩放。在这里,我们证明所有这些特征都存在于我们的最小老化 Langevin 模型中。在老化过程中,阻尼和温度都会以幂律形式随时间下降。广义爱因斯坦关系可用于解决确定非啮合行为的难题。该模型显示了远离临界点的幂律型扩散和临界点的对数西奈型超慢扩散。此外,还讨论了该模型在粒状气体中的应用。作者提出了一个具有随时间变化的噪声、扩散系数和摩擦系数的最小朗文模型,该模型适用于描述冷却环境(颗粒气体、激光冷却)。假设温度和摩擦系数以幂律方式衰减,分析了广义爱因斯坦关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Generalized Einstein relation for aging processes

Generalized Einstein relation for aging processes

Generalized Einstein relation for aging processes
Physical aging appears in many systems ranging from glassy/granular materials, blinking quantum dots to laser-cooled atoms. Aging is a process with three fingerprints: (i) slow, non-exponential relaxation, (ii) breaking of time-translation-invariance, and (iii) dynamical scaling. Here, we show that all these features are present in our minimal Langevin model for aging. A natural extension of the Einstein relation, which was expected to be true in an equilibrium state, is conjectured to hold in aging processes where both the damping and the temperature decrease with time in power-law forms. The generalized Einstein relation can be used to tackle the difficult problem of determining non-ergodic behaviours. The model shows a power-law-type diffusion away from the critical point and a logarithmic Sinai-type ultra-slow diffusion at the critical point. Application to granular gases is also discussed. The authors propose a minimal Langevin model with time-dependent noise, diffusion coefficient, and friction coefficient, which is appropriate to describe cooling environments (granular gases, laser cooling). Assuming that the temperature and the friction coefficient decay in a power-law manner, the generalized Einstein relation is analysed.
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来源期刊
Communications Physics
Communications Physics Physics and Astronomy-General Physics and Astronomy
CiteScore
8.40
自引率
3.60%
发文量
276
审稿时长
13 weeks
期刊介绍: Communications Physics is an open access journal from Nature Research publishing high-quality research, reviews and commentary in all areas of the physical sciences. Research papers published by the journal represent significant advances bringing new insight to a specialized area of research in physics. We also aim to provide a community forum for issues of importance to all physicists, regardless of sub-discipline. The scope of the journal covers all areas of experimental, applied, fundamental, and interdisciplinary physical sciences. Primary research published in Communications Physics includes novel experimental results, new techniques or computational methods that may influence the work of others in the sub-discipline. We also consider submissions from adjacent research fields where the central advance of the study is of interest to physicists, for example material sciences, physical chemistry and technologies.
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