Global existence and time decay of strong solutions to a fluid-particle coupled model with energy exchanges

Abstract

In this paper, we investigate a three-dimensional fluid-particle coupled model. % in whole space R3. This model combines the full compressible Navier-Stokes equations with the Vlasov-Fokker-Planck equation via the momentum and energy exchanges. We obtain the global existence and optimal time decay rates of strong solutions to the model in whole space R3 when the initial data are a small perturbation of the given equilibrium in H2. We show that the L2-norms of the solutions and their gradients decay as (1+t)-3/4 and (1+t)-5/4 respectively. Moreover, we also obtain the decay rates of solutions in Lp-norms for p∈ [2,∞], and the optimal time decay rates of the highest-order derivatives of strong solutions which reads as (1+t)-7/4 in L2-norm. % Our decay rates are consistent with those of non-isentropic compressible Navier-Stokes equations. When the model is considered in a periodic domain, besides the global existence results, we show the strong solution decay exponentially. Our proofs rely on the energy method, Fourier analysis techniques, and the method of frequency decomposition. And some new ideas are introduced to achieve the desired convergence rates.