Title:	Run-and-tumble particle in one-dimensional confining potentials: Steady-state, relaxation, and first-passage properties
Authors:	Dhar, Abhishek Kundu, Anupam Sabhapandit, Sanjib Majumdar, Satya N Schehr, Grégory
Issue Date:	2019
Publisher:	American Physical Society
Citation:	Physical Review E, 2018, Vol.99, p032132
Abstract:	We study the dynamics of a one-dimensional run-and-tumble particle subjected to confining potentials of the type V (x) = α |x| p, with p > 0. The noise that drives the particle dynamics is telegraphic and alternates between ±1 values. We show that the stationary probability density P(x) has a rich behavior in the (p, α) plane. For p > 1, the distribution has a finite support in [x−, x+] and there is a critical line αc (p) that separates an activelike phase for α>αc (p) where P(x) diverges at x±, from a passivelike phase for α<αc (p) where P(x) vanishes at x±. For p < 1, the stationary density P(x) collapses to a delta function at the origin, P(x) = δ(x). In the marginal case p = 1, we show that, for α<αc, the stationary density P(x) is a symmetric exponential, while for α>αc, it again is a delta function P(x) = δ(x). For the harmonic case p = 2, we obtain exactly the full time-dependent distribution P(x,t), which allows us to study how the system relaxes to its stationary state. In addition, for this p = 2 case, we also study analytically the full distribution of the first-passage time to the origin. Numerical simulations are in complete agreement with our analytical predictions.
Description:	Open Access
URI:	http://hdl.handle.net/2289/7197
ISSN:	2470-0045 2470-0053 (Online)
Alternative Location:	https://arxiv.org/abs/1811.03808 https://doi.org/10.1103/PhysRevE.99.032132
Copyright:	2019 American Physical Society
Appears in Collections:	Research Papers (TP)

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