随机介质中遍历性破缺产生的分数动力学。

Fractional kinetics emerging from ergodicity breaking in random media.

作者信息

Molina-García Daniel, Pham Tuan Minh, Paradisi Paolo, Manzo Carlo, Pagnini Gianni

机构信息

BCAM - Basque Center for Applied Mathematics, Alameda de Mazarredo 14, E-48009 Bilbao, Basque Country, Spain.

Department of Theoretical Physics, Belgorod National Research University, 14 Studencheskaya, 308015 Belgorod, Russia.

出版信息

Phys Rev E. 2016 Nov;94(5-1):052147. doi: 10.1103/PhysRevE.94.052147. Epub 2016 Nov 28.

DOI:10.1103/PhysRevE.94.052147

PMID:27967076

Abstract

We present a modeling approach for diffusion in a complex medium characterized by a random length scale. The resulting stochastic process shows subdiffusion with a behavior in qualitative agreement with single-particle tracking experiments in living cells, such as ergodicity breaking, p variation, and aging. In particular, this approach recapitulates characteristic features previously described in part by the fractional Brownian motion and in part by the continuous-time random walk. Moreover, for a proper distribution of the length scale, a single parameter controls the ergodic-to-nonergodic transition and, remarkably, also drives the transition of the diffusion equation of the process from nonfractional to fractional, thus demonstrating that fractional kinetics emerges from ergodicity breaking.

摘要

我们提出了一种用于在具有随机长度尺度特征的复杂介质中扩散的建模方法。所得到的随机过程表现出亚扩散，其行为与活细胞中的单粒子追踪实验定性一致，例如遍历性破坏、p 变化和老化。特别地，这种方法概括了先前部分由分数布朗运动和部分由连续时间随机游走所描述的特征。此外，对于长度尺度的适当分布，单个参数控制遍历性到非遍历性的转变，并且显著地，还驱动该过程的扩散方程从非分数阶到分数阶的转变，从而表明分数动力学源于遍历性破坏。

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随机介质中遍历性破缺产生的分数动力学。

Fractional kinetics emerging from ergodicity breaking in random media.

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