Phase separation and super diffusion of binary mixtures of active and passive particles

Y Wang and ZL Shen and YQ Xia and GQ Feng and WD Tian, CHINESE PHYSICS B, 29, 053103 (2020).

DOI: 10.1088/1674-1056/ab81f4

Computer simulations were performed to study the dense mixtures of passive particles and active particles in two dimensions. Two systems with different kinds of passive particles (e.g., spherical particles and rod-like particles) were considered. At small active forces, the high- density and low-density regions emerge in both systems, indicating a phase separation. At higher active forces, the systems return to a homogeneous state with large fluctuation of particle area in contrast with the thermo-equilibrium state. Structurally, the rod-like particles accumulate loosely due to the shape anisotropy compared with the spherical particles at the high-density region. Moreover, there exists a positive correlation between Voronoi area and velocity of the particles. Additionally, a small number of active particles capably give rise to super-diffusion of passive particles in both systems when the self- propelled force is turned on.

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