The inertial Itô drift and its applications to particle collision

Abstract

The small mass μ limit of an inertial system driven by an Ornstein Uhlenbeck fluid force, with correlation time ε going to zero, leads to a first order system with an additional drift, which we call inertial-Itô-drift, depending on the limit α of the ratio μ/ε; the drift being zero when α=0, corresponding to the Stratonovich integral in the limit equation, as in the Wong-Zakai theory, when applied directly to the first-order system with Ornstein-Uhlenbeck driver. We discuss the application of this result to particles driven by Stokes force;\ we identify inertial centrifugal effects and the so-called turbophoretic effect, as examples of the inertial-Itô-drift. We also analyze concentration effects and their link with the theory of particle collision in turbulent fluids.