Issue 33, 2020

Field-driven tracer diffusion through curved bottlenecks: fine structure of first passage events

Abstract

Using scaling arguments and extensive numerical simulations, we study the dynamics of a tracer particle in a corrugated channel represented by a periodic sequence of broad chambers and narrow funnel-like bottlenecks enclosed by a hard-wall boundary. The tracer particle is affected by an external force pointing along the channel, and performs an unbiased diffusion in the perpendicular direction. We present a detailed analysis (a) of the distribution function of the height above the funnel's boundary at which the first crossing of a given bottleneck takes place, and (b) of the distribution function of the first passage time to such an event. Our analysis reveals several new features of the dynamical behaviour that are overlooked in the studies based on the Fick–Jacobs approach. In particular, trajectories passing through a funnel concentrate predominantly on its boundary, which makes first-crossing events very sensitive to the presence of binding sites and microscopic roughness.

Graphical abstract: Field-driven tracer diffusion through curved bottlenecks: fine structure of first passage events

Article information

Article type
Paper
Submitted
12 Jun 2020
Accepted
31 Jul 2020
First published
08 Aug 2020

Phys. Chem. Chem. Phys., 2020,22, 18414-18422

Field-driven tracer diffusion through curved bottlenecks: fine structure of first passage events

A. Valov, V. Avetisov, S. Nechaev and G. Oshanin, Phys. Chem. Chem. Phys., 2020, 22, 18414 DOI: 10.1039/D0CP03162C

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