Temperature anomalies of oscillating diffusion in ac-driven periodic systems

We analyse the impact of temperature on the diffusion coefficient of an inertial Brownian particle moving in a symmetric periodic potential and driven by a symmetric time-periodic force. Recent studies have revealed the low friction regime in which the diffusion coefficient shows giant damped quasi-...

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Veröffentlicht in:	arXiv.org 2023-06
Hauptverfasser:	Marchenko, I G, Aksenova, V, Marchenko, I I, Łuczka, J, Spiechowicz, J
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Sprache:	eng
Schlagworte:	Anomalies Brownian motion Diffusion coefficient Impact analysis Maxima Physics - Mesoscale and Nanoscale Physics Physics - Soft Condensed Matter Physics - Statistical Mechanics Physics - Superconductivity Quasi-Periodic Oscillations Temperature dependence
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creator	Marchenko, I G Aksenova, V Marchenko, I I Łuczka, J Spiechowicz, J
description	We analyse the impact of temperature on the diffusion coefficient of an inertial Brownian particle moving in a symmetric periodic potential and driven by a symmetric time-periodic force. Recent studies have revealed the low friction regime in which the diffusion coefficient shows giant damped quasi-periodic oscillations as a function of the amplitude of the time-periodic force [I. G. Marchenko et al., Chaos 32, 113106 (2022)]. We find out that when temperature grows the diffusion coefficient increases at its minima, however, it decreases at the maxima within a finite temperature window. This curious behavior is explained in terms of the deterministic dynamics perturbed by thermal fluctuations and mean residence time of the particle in the locked and running trajectories. We demonstrate that temperature dependence of the diffusion coefficient can be accurately reconstructed from the stationary probability to occupy the running trajectories.
doi_str_mv	10.48550/arxiv.2306.04977
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Recent studies have revealed the low friction regime in which the diffusion coefficient shows giant damped quasi-periodic oscillations as a function of the amplitude of the time-periodic force [I. G. Marchenko et al., Chaos 32, 113106 (2022)]. We find out that when temperature grows the diffusion coefficient increases at its minima, however, it decreases at the maxima within a finite temperature window. This curious behavior is explained in terms of the deterministic dynamics perturbed by thermal fluctuations and mean residence time of the particle in the locked and running trajectories. 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subjects	Anomalies Brownian motion Diffusion coefficient Impact analysis Maxima Physics - Mesoscale and Nanoscale Physics Physics - Soft Condensed Matter Physics - Statistical Mechanics Physics - Superconductivity Quasi-Periodic Oscillations Temperature dependence
title	Temperature anomalies of oscillating diffusion in ac-driven periodic systems
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