Symmetric Exclusion Process under Stochastic Resetting
Abstract
We study the behaviour of a Symmetric Exclusion Process (SEP) in presence of stochastic resetting where the configuration of the system is reset to a step-like profile with a fixed rate We show that the presence of resetting affects both the stationary and dynamical properties of SEP strongly. We compute the exact time-dependent density profile and show that the stationary state is characterized by a non-trivial inhomogeneous profile in contrast to the flat one for We also show that for the average diffusive current grows linearly with time in stark contrast to the growth for In addition to the underlying diffusive current, we identify the resetting current in the system which emerges due to the sudden relocation of the particles to the step-like configuration and is strongly correlated to the diffusive current. We show that the average resetting current is negative, but its magnitude also grows linearly with time We also compute the probability distributions of the diffusive current, resetting current and the total current (sum of the diffusive and the resetting currents) using the renewal approach. We demonstrate that while the typical fluctuations of both the diffusive and reset currents around the mean are typically Gaussian, the distribution of the total current shows a strong non-Gaussian behaviour.
Cite
@article{arxiv.1906.11801,
title = {Symmetric Exclusion Process under Stochastic Resetting},
author = {Urna Basu and Anupam Kundu and Arnab Pal},
journal= {arXiv preprint arXiv:1906.11801},
year = {2019}
}
Comments
16 pages, 10 figures