Susceptibility to disorder of the optimal resetting rate in the Larkin model of directed polymers

Pascal Grange

doi:10.1088/2399-6528/abb752

Susceptibility to disorder of the optimal resetting rate in the Larkin model of directed polymers

Pascal Grange^*

^*Corresponding author for this work

Department of Physics

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

We consider the Larkin model of a directed polymer with Gaussian-distributed random forces, with the addition of a resetting process whereby the transverse position of the end-point of the polymer is reset to zero with constant rate r. We express the average over disorder of the mean time to absorption by an absorbing target at a fixed value of the transverse position. Thanks to the independence properties of the distribution of the random forces, this expression is analogous to the mean time to absorption for a diffusive particle under resetting, which possesses a single minimum at an optimal value r* of the resetting rate. Moreover, the mean time to absorption can be expanded as a power series of the amplitude of the disorder, around the value r* of the resetting rate. We obtain the susceptibility of the optimal resetting rate to disorder in closed form, and find it to be positive.

Original language	English
Article number	095018
Pages (from-to)	1-16
Number of pages	16
Journal	Journal of Physics Communications
Volume	4
Issue number	9
DOIs	https://doi.org/10.1088/2399-6528/abb752
Publication status	Published - 17 Sept 2020

Keywords

Directed polymers
Random-force model
Stochastic resetting

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10.1088/2399-6528/abb752

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title = "Susceptibility to disorder of the optimal resetting rate in the Larkin model of directed polymers",

abstract = "We consider the Larkin model of a directed polymer with Gaussian-distributed random forces, with the addition of a resetting process whereby the transverse position of the end-point of the polymer is reset to zero with constant rate r. We express the average over disorder of the mean time to absorption by an absorbing target at a fixed value of the transverse position. Thanks to the independence properties of the distribution of the random forces, this expression is analogous to the mean time to absorption for a diffusive particle under resetting, which possesses a single minimum at an optimal value r* of the resetting rate. Moreover, the mean time to absorption can be expanded as a power series of the amplitude of the disorder, around the value r* of the resetting rate. We obtain the susceptibility of the optimal resetting rate to disorder in closed form, and find it to be positive.",

keywords = "Directed polymers, Random-force model, Stochastic resetting",

author = "Pascal Grange",

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T1 - Susceptibility to disorder of the optimal resetting rate in the Larkin model of directed polymers

AU - Grange, Pascal

PY - 2020/9/17

Y1 - 2020/9/17

N2 - We consider the Larkin model of a directed polymer with Gaussian-distributed random forces, with the addition of a resetting process whereby the transverse position of the end-point of the polymer is reset to zero with constant rate r. We express the average over disorder of the mean time to absorption by an absorbing target at a fixed value of the transverse position. Thanks to the independence properties of the distribution of the random forces, this expression is analogous to the mean time to absorption for a diffusive particle under resetting, which possesses a single minimum at an optimal value r* of the resetting rate. Moreover, the mean time to absorption can be expanded as a power series of the amplitude of the disorder, around the value r* of the resetting rate. We obtain the susceptibility of the optimal resetting rate to disorder in closed form, and find it to be positive.

AB - We consider the Larkin model of a directed polymer with Gaussian-distributed random forces, with the addition of a resetting process whereby the transverse position of the end-point of the polymer is reset to zero with constant rate r. We express the average over disorder of the mean time to absorption by an absorbing target at a fixed value of the transverse position. Thanks to the independence properties of the distribution of the random forces, this expression is analogous to the mean time to absorption for a diffusive particle under resetting, which possesses a single minimum at an optimal value r* of the resetting rate. Moreover, the mean time to absorption can be expanded as a power series of the amplitude of the disorder, around the value r* of the resetting rate. We obtain the susceptibility of the optimal resetting rate to disorder in closed form, and find it to be positive.

KW - Directed polymers

KW - Random-force model

KW - Stochastic resetting

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Susceptibility to disorder of the optimal resetting rate in the Larkin model of directed polymers

Abstract

Keywords

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