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Autori principali: Sarkar, Mrinal, Gupta, Shamik
Natura: Preprint
Pubblicazione: 2022
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Accesso online:https://arxiv.org/abs/2205.15232
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author Sarkar, Mrinal
Gupta, Shamik
author_facet Sarkar, Mrinal
Gupta, Shamik
contents We consider biased random walks on random networks constituted by a random comb comprising a backbone with quenched-disordered random-length branches. The backbone and the branches run in the direction of the bias. For the bare model as also when the model is subject to stochastic resetting, whereby the walkers on the branches reset with a constant rate to the respective backbone sites, we obtain exact stationary-state static and dynamic properties for a given disorder realization of branch lengths sampled following an arbitrary distribution. We derive a criterion to observe in the stationary state a non-zero drift velocity along the backbone. For the bare model, we discuss the occurrence of a drift velocity that is non-monotonic as a function of the bias, becoming zero beyond a threshold bias because of walkers trapped at very long branches. Further, we show that resetting allows the system to escape trapping, resulting in a drift velocity that is finite at any bias.
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publishDate 2022
record_format arxiv
spellingShingle Biased random walk on random networks in presence of stochastic resetting: Exact results
Sarkar, Mrinal
Gupta, Shamik
Statistical Mechanics
We consider biased random walks on random networks constituted by a random comb comprising a backbone with quenched-disordered random-length branches. The backbone and the branches run in the direction of the bias. For the bare model as also when the model is subject to stochastic resetting, whereby the walkers on the branches reset with a constant rate to the respective backbone sites, we obtain exact stationary-state static and dynamic properties for a given disorder realization of branch lengths sampled following an arbitrary distribution. We derive a criterion to observe in the stationary state a non-zero drift velocity along the backbone. For the bare model, we discuss the occurrence of a drift velocity that is non-monotonic as a function of the bias, becoming zero beyond a threshold bias because of walkers trapped at very long branches. Further, we show that resetting allows the system to escape trapping, resulting in a drift velocity that is finite at any bias.
title Biased random walk on random networks in presence of stochastic resetting: Exact results
topic Statistical Mechanics
url https://arxiv.org/abs/2205.15232