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Residence Time Near an Absorbing Set

Published 23 Jun 2018 in cond-mat.stat-mech and physics.data-an | (1806.09028v2)

Abstract: We determine how long a diffusing particle spends in a given spatial range before it dies at an absorbing boundary. In one dimension, for a particle that starts at $x_0$ and is absorbed at $x=0$, the average residence time in the range $[x,x+dx]$ is $T(x)=\frac{x}{D}\,dx$ for $x<x_0$ and $\frac{x_0}{D}\,dx$ for $x>x_0$, where $D$ is the diffusion coefficient. We extend our approach to biased diffusion, to a particle confined to a finite interval, and to general spatial dimensions. We use the generating function technique to derive parallel results for the average residence time of the one-dimensional symmetric nearest-neighbor random walk that starts at $x_0=1$ and is absorbed at $x=0$. We also determine the distribution of times at which the random walk first revisits $x=1$ before being absorbed.

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