Phase Separation in Active Binary Mixtures With Chemical Reaction
Abstract
We study motility-induced phase separation~(MIPS) in active AB binary mixtures undergoing the chemical reaction A B. Starting from the evolution equations for the density fields i( r, t) describing MIPS, we phenomenologically incorporate the effects of the reaction through the reaction rate into the equations. The steady-state domain morphologies depend on and the relative activity of the species, . For a sufficiently large and 1, the more active component of the mixture forms a droplet morphology. We characterize the morphology of domains by calculating the equal-time correlation function C(r, t) and the structure factor S(k, t), exhibiting scaling violation. The average domain size, L(t), follows a diffusive growth as L(t) t1/3 before reaching the steady state domain size, L ss. Additionally, L ss shows the scaling relation L ss-1/4, independent of .
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