Diffusion of multiple species with excluded-volume effects

• Published in: The Journal of chemical physics Vol. 137; no. 20; p. 204116
• Main Authors: Bruna, Maria, Chapman, S Jonathan
• Format: Journal Article
• Language: English
• Published: United States 28.11.2012
• Subjects: Diffusion; Models, Biological; Particle Size; Stochastic Processes
• ISSN: 1089-7690
• DOI: 10.1063/1.4767058

Stochastic models of diffusion with excluded-volume effects are used to model many biological and physical systems at a discrete level. The average properties of the population may be described by a continuum model based on partial differential equations. In this paper we consider multiple interacting subpopulations/species and study how the inter-species competition emerges at the population level. Each individual is described as a finite-size hard core interacting particle undergoing brownian motion. The link between the discrete stochastic equations of motion and the continuum model is considered systematically using the method of matched asymptotic expansions. The system for two species leads to a nonlinear cross-diffusion system for each subpopulation, which captures the enhancement of the effective diffusion rate due to excluded-volume interactions between particles of the same species, and the diminishment due to particles of the other species. This model can explain two alternative notions of the diffusion coefficient that are often confounded, namely collective diffusion and self-diffusion. Simulations of the discrete system show good agreement with the analytic results.