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First passage of a diffusing particle under stochastic resetting in bounded domains with spherical symmetry

Hanshuang Chen, Feng Huang

2022Physical review. E25 citationsDOIOpen Access PDF

Abstract

We investigate the first passage properties of a Brownian particle diffusing freely inside a d-dimensional sphere with absorbing spherical surface subject to stochastic resetting. We derive the mean time to absorption (MTA) as functions of resetting rate γ and initial distance r of the particle to the center of the sphere. We find that when r>r_{c} there exists a nonzero optimal resetting rate γ_{opt} at which the MTA is a minimum, where r_{c}=sqrt[d/(d+4)]R and R is the radius of the sphere. As r increases, γ_{opt} exhibits a continuous transition from zero to nonzero at r=r_{c}. Furthermore, we consider that the particle lies between two two-dimensional or three-dimensional concentric spheres with absorbing boundaries, and obtain the domain in which resetting expedites the MTA, which is (R_{1},r_{c_{1}})∪(r_{c_{2}},R_{2}), with R_{1} and R_{2} being the radii of inner and outer spheres, respectively. Interestingly, when R_{1}/R_{2} is less than a critical value, γ_{opt} exhibits a discontinuous transition at r=r_{c_{1}}; otherwise, such a transition is continuous. However, at r=r_{c_{2}} the transition is always continuous.

Topics & Concepts

SPHERESBounded functionRADIUSPhysicsBrownian motionDomain (mathematical analysis)Particle (ecology)Spherical shellZero (linguistics)Mathematical physicsMathematical analysisMathematicsQuantum mechanicsShell (structure)Materials scienceLinguisticsGeologyPhilosophyComputer scienceComputer securityAstronomyComposite materialOceanographyDiffusion and Search Dynamicsstochastic dynamics and bifurcationMathematical and Theoretical Epidemiology and Ecology Models
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