Diffusion Enhances Chirality Selection
Abstract
Diffusion effect on chirality selection in a two-dimensional reaction-diffusion model is studied by the Monte Carlo simulation. The model consists of achiral reactants A which turn into either of the chiral products, R or S, in a solvent of chemically inactive vacancies V. The reaction contains the nonlinear autocatalysis as well as recycling process, and the chiral symmetry breaking is monitored by an enantiomeric excess . Without dilution a strong nonlinear autocatalysis ensures chiral symmetry breaking. By dilution, the chiral order decreases, and the racemic state is recovered below the critical concentration . Diffusion effectively enhances the concentration of chiral species, and decreases as the diffusion coefficient increases. The relation between and for a system with a finite fits rather well to an interpolation formula between the diffusionless(D=0) and homogeneous () limits.
Cite
@article{arxiv.cond-mat/0603422,
title = {Diffusion Enhances Chirality Selection},
author = {Ryo Shibata and Yukio Saito and Hiroyuki Hyuga},
journal= {arXiv preprint arXiv:cond-mat/0603422},
year = {2007}
}
Comments
7 pages, 6 figures