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Hauptverfasser: Marchenko, I. G., Marchenko, I. I., Ivashchenko, D., Łuczka, J., Spiechowicz, J.
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2606.01887
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author Marchenko, I. G.
Marchenko, I. I.
Ivashchenko, D.
Łuczka, J.
Spiechowicz, J.
author_facet Marchenko, I. G.
Marchenko, I. I.
Ivashchenko, D.
Łuczka, J.
Spiechowicz, J.
contents We consider an ac-driven particle moving in a spatially periodic and symmetric potential. In the zero- temperature limit, for the analyzed parameter set, its dynamics is non-chaotic and the particle does not manifest diffusive properties. At non-zero temperatures, the asymptotic long-time motion follows normal (Brownian) diffusion. Recent studies have shown that within tailored parameter regimes, the diffusion coef- ficient is a quasiperiodic function of the external driving amplitude [1]. Although no general relation between Lyapunov exponents and Brownian diffusion exists, we demonstrate that the quasiperiodic diffusion coefficient at non-zero temperature can be accurately reconstructed from the maximal Lyapunov exponent of the corresponding deterministic system (at vanishing temperature). We propose an approximate formula for this purpose, which shows good agreement with numerical simulations, although some discrepancies are detected in the vicinity of the local maxima of the diffusion coefficient. Finally, we examine the robustness of the correlation between diffusion and the Lyapunov exponent under variations of the system parameters.
format Preprint
id arxiv_https___arxiv_org_abs_2606_01887
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Can the Brownian diffusion coefficient be reconstructed from Lyapunov exponents?
Marchenko, I. G.
Marchenko, I. I.
Ivashchenko, D.
Łuczka, J.
Spiechowicz, J.
Statistical Mechanics
We consider an ac-driven particle moving in a spatially periodic and symmetric potential. In the zero- temperature limit, for the analyzed parameter set, its dynamics is non-chaotic and the particle does not manifest diffusive properties. At non-zero temperatures, the asymptotic long-time motion follows normal (Brownian) diffusion. Recent studies have shown that within tailored parameter regimes, the diffusion coef- ficient is a quasiperiodic function of the external driving amplitude [1]. Although no general relation between Lyapunov exponents and Brownian diffusion exists, we demonstrate that the quasiperiodic diffusion coefficient at non-zero temperature can be accurately reconstructed from the maximal Lyapunov exponent of the corresponding deterministic system (at vanishing temperature). We propose an approximate formula for this purpose, which shows good agreement with numerical simulations, although some discrepancies are detected in the vicinity of the local maxima of the diffusion coefficient. Finally, we examine the robustness of the correlation between diffusion and the Lyapunov exponent under variations of the system parameters.
title Can the Brownian diffusion coefficient be reconstructed from Lyapunov exponents?
topic Statistical Mechanics
url https://arxiv.org/abs/2606.01887