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Autori principali: Sarmiento, Yonathan, Walter, Benjamin, Das, Debraj, Mahapatra, Samvit, Roldán, Édgar, Harris, Rosemary J.
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2505.24483
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author Sarmiento, Yonathan
Walter, Benjamin
Das, Debraj
Mahapatra, Samvit
Roldán, Édgar
Harris, Rosemary J.
author_facet Sarmiento, Yonathan
Walter, Benjamin
Das, Debraj
Mahapatra, Samvit
Roldán, Édgar
Harris, Rosemary J.
contents We explore first-passage phenomenology for biased active processes with a renewal-type structure, focusing in particular on paradigmatic run-and-tumble models in both discrete and continuous state spaces. In general, we show there is no equality between distributions of conditional first-passage times to symmetric barriers positioned in and against the bias direction. However, we give conditions for such a duality to be restored asymptotically (in the limit of a large barrier distance) and highlight connections to the Gallavotti-Cohen fluctuation relation and the method of images. Our general trajectory arguments of first-passage-time distributions for asymmetric run-and-tumble processes to escape from an interval of arbitrary width are supported by exact analytical results, which we derive extending Montroll's defect technique. Furthermore, we quantify the degree of violation of first-passage duality using Kullback-Leibler divergence and signal-to-noise ratios associated with the first-passage times to the two barriers. We reveal an intriguing dependence of such measures of first-passage asymmetry on the underlying often hidden tumbling dynamics which may inspire inference techniques based on first-passage-time statistics in active systems.
format Preprint
id arxiv_https___arxiv_org_abs_2505_24483
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle First-Passage-Time Asymmetry for Biased Run-and-Tumble Processes
Sarmiento, Yonathan
Walter, Benjamin
Das, Debraj
Mahapatra, Samvit
Roldán, Édgar
Harris, Rosemary J.
Statistical Mechanics
We explore first-passage phenomenology for biased active processes with a renewal-type structure, focusing in particular on paradigmatic run-and-tumble models in both discrete and continuous state spaces. In general, we show there is no equality between distributions of conditional first-passage times to symmetric barriers positioned in and against the bias direction. However, we give conditions for such a duality to be restored asymptotically (in the limit of a large barrier distance) and highlight connections to the Gallavotti-Cohen fluctuation relation and the method of images. Our general trajectory arguments of first-passage-time distributions for asymmetric run-and-tumble processes to escape from an interval of arbitrary width are supported by exact analytical results, which we derive extending Montroll's defect technique. Furthermore, we quantify the degree of violation of first-passage duality using Kullback-Leibler divergence and signal-to-noise ratios associated with the first-passage times to the two barriers. We reveal an intriguing dependence of such measures of first-passage asymmetry on the underlying often hidden tumbling dynamics which may inspire inference techniques based on first-passage-time statistics in active systems.
title First-Passage-Time Asymmetry for Biased Run-and-Tumble Processes
topic Statistical Mechanics
url https://arxiv.org/abs/2505.24483