English

Estimating the Steady State Diffusion Coefficient Using Data from the Transient Anomalous Regime

Biological Physics 2021-08-12 v1

Abstract

When particles/molecules diffuse in systems that contain obstacles, the steady-state regime (during which the mean-square displacement scales linearly with time, <r2>t\left< r^2 \right> \sim t) is preceded by a transient regime. It is common to characterize this transient regime using the concept of anomalous (sub)diffusion with the scaling law <r2>tα\left< r^2 \right> \sim t^\alpha, where the corresponding exponent α<1\alpha<1. We propose a new method to estimate the critical time tt^* that marks the transition between these two regimes. The method uses short-time data from the transient regime to estimate tt^*, which can then be used to estimate the steady-state diffusion coefficient DD. In other words, we propose a procedure that makes it possible to estimate the steady state diffusion coefficient without reaching the steady-state. We test the procedure with various two-dimensional lattice systems.

Keywords

Cite

@article{arxiv.2108.04944,
  title  = {Estimating the Steady State Diffusion Coefficient Using Data from the Transient Anomalous Regime},
  author = {Nicholas Ilow and Gary W. Slater},
  journal= {arXiv preprint arXiv:2108.04944},
  year   = {2021}
}
R2 v1 2026-06-24T05:00:31.138Z