An Iterative Energy Estimate for Degenerate Einstein model of Brownian motion

Abstract

We consider the degenerate Einstein's Brownian motion model for the case when the time interval (τ) of particle Jumps before collision (free jumps) reciprocal to the number of particles per unit volume u(x,t) > 0 at the point of observation x at time t. The parameter 0 < τ ≤ C < ∞, controls characteristic of the fluid "almost decreases" to 0 when u → ∞. This degeneration leads to the localisation of the spread of particle propagation in the media. In our report we will present a structural condition of the time interval of free jumps - τ and the frequency of these free jumps φ as functions of u which guarantees the finite speed of propagation of u.