Domain Growth Kinetics in Active Binary Mixtures
Abstract
We study motility-induced phase separation (MIPS) in symmetric and asymmetric active binary mixtures. We start with the coarse-grained run-and-tumble bacterial model that provides evolution equations for the density fields i( r, t). Next, we study the phase separation dynamics by solving the evolution equations using the Euler discretization technique. We characterize the morphology of domains by calculating the equal-time correlation function C(r, t) and the structure factor S(k, t), both of which show dynamical scaling. The form of the scaling functions depends on the mixture composition and the relative activity of the species, . For k→∞, S(k, t) follows Porod's law: S(k, t) k-(d+1) and the average domain size L(t) shows a diffusive growth as L(t) t1/3 for all mixtures.
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