论文信息 - Pressure and phase equilibria in interacting active brownian spheres.

Pressure and phase equilibria in interacting active brownian spheres.

We derive a microscopic expression for the mechanical pressure P in a system of spherical active Brownian particles at density ρ. Our exact result relates P, defined as the force per unit area on a bounding wall, to bulk correlation functions evaluated far away from the wall. It shows that (i) P(ρ) is a state function, independent of the particle-wall interaction; (ii) interactions contribute two terms to P, one encoding the slow-down that drives motility-induced phase separation, and the other a direct contribution well known for passive systems; and (iii) P is equal in coexisting phases. We discuss the consequences of these results for the motility-induced phase separation of active Brownian particles and show that the densities at coexistence do not satisfy a Maxwell construction on P.

[1] S. Wereley,et al. Soft Matter , 2014 .

[2] H. Lekkerkerker,et al. Colloids and the Depletion Interaction , 2011, Lecture Notes in Physics.

[3] 刘金明,et al. IL-13受体α2降低血吸虫病肉芽肿的炎症反应并延长宿主存活时间[英]/Mentink-Kane MM,Cheever AW，Thompson RW，et al//Proc Natl Acad Sci U S A , 2005 .

[4] P. Gennes. Scaling Concepts in Polymer Physics , 1979 .

[5] E. Olivieri,et al. Large deviations and metastability: Large deviations and statistical mechanics , 2005 .

[6] Mohamed Daoud,et al. Soft Matter Physics , 1999 .

[7] D. Henderson. Fundamentals of Inhomogeneous Fluids , 1992 .

[8] C. Brooks. Computer simulation of liquids , 1989 .

[9] R. Ellis,et al. Entropy, large deviations, and statistical mechanics , 1985 .