Extremely Persistent Dense Active Fluids

Abstract

We examine the dependence of the dynamics of three-dimensional active fluids on persistence time τp and average self-propulsion force f. In the large persistence time limit many properties of these fluids become τp-independent. These properties include the mean squared velocity, the self-intermediate scattering function, the shear-stress correlation function and the low-shear-rate viscosity. We find that for a given f in the large τp limit the mean squared displacement is independent of the persistence time for times shorter than τp and the long-time self-diffusion coefficient is proportional to the persistence time. For a large range of self-propulsion forces the large persistence time limits of many properties depend on f as power laws.