# Universal time dependent dispersion properties for diffusion in a   one-dimensional critically tilted potential

**Authors:** T. Gu\'erin, D. S. Dean

arXiv: 1701.02116 · 2017-02-01

## TL;DR

This paper analyzes how the dispersion of particles in a one-dimensional periodic potential changes near a critical tilting force, revealing distinct diffusive regimes and asymptotic behaviors.

## Contribution

It provides a detailed characterization of the time-dependent dispersion properties near the critical force, including explicit asymptotic regimes and the impact on the MSD shape.

## Key findings

- Identification of a diffusive regime with enhanced diffusion coefficient for F>F_c
- Distinct late-time and intermediate-time diffusive behaviors for F<F_c
- Explicit asymptotic regimes for MSD at all time scales

## Abstract

We consider the time dependent dispersion properties of overdamped tracer particles diffusing in a one dimensional periodic potential under the influence of an additional constant tilting force $F$. The system is studied in the region where the force is close to the critical value $F_c$ at which the barriers separating neighboring potential wells disappear. We show that, when $F$ crosses the critical value, the shape of the Mean-Square Displacement (MSD) curves is strongly modified. We identify a diffusive regime at intermediate time scales, with an effective diffusion coefficient which is much larger than the late time diffusion coefficient for $F>F_c$, whereas for $F<F_c$ the late time and intermediate time diffusive regimes are indistinguishable. Explicit asymptotic regimes for the MSD curves are identified at all time scales.

## Full text

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## Figures

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## References

58 references — full list in the complete paper: https://tomesphere.com/paper/1701.02116/full.md

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Source: https://tomesphere.com/paper/1701.02116