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Optimal Resetting Brownian Bridges

Authors :
De Bruyne, Benjamin
Majumdar, Satya N.
Schehr, Gregory
Source :
Phys. Rev. Lett. 128, 200603 (2022)
Publication Year :
2022

Abstract

We introduce a resetting Brownian bridge as a simple model to study search processes where the total search time $t_f$ is finite and the searcher returns to its starting point at $t_f$. This is simply a Brownian motion with a Poissonian resetting rate $r$ to the origin which is constrained to start and end at the origin at time $t_f$. We first provide a rejection-free algorithm to generate such resetting bridges in all dimensions by deriving an effective Langevin equation with an explicit space-time dependent drift $\tilde \mu({\bf x},t)$ and resetting rate $\tilde r({\bf x}, t)$. We also study the efficiency of the search process in one-dimension by computing exactly various observables such as the mean-square displacement, the hitting probability of a fixed target and the expected maximum. Surprisingly, we find that there exists an optimal resetting rate $r^*$ that maximizes the search efficiency, even in the presence of a bridge constraint. We show however that the physical mechanism responsible for this optimal resetting rate for bridges is entirely different from resetting Brownian motions without the bridge constraint.<br />Comment: Main text: 6 pages + 3 figs, Supp. Mat.: 9 pages + 3 figs

Details

Database :
arXiv
Journal :
Phys. Rev. Lett. 128, 200603 (2022)
Publication Type :
Report
Accession number :
edsarx.2201.01994
Document Type :
Working Paper