Analyticity and asymptotic behavior of solutions to the compressible Navier-Stokes-Korteweg equations with the zero sound speed in scaling critical spaces

Abstract

We consider the initial-value problem in the d-dimensional Euclidean space Rd (d 3) for the compressible Navier-Stokes-Korteweg equations under the zero sound speed case (namely, P'(*)=0, where P=P() stands for the pressure). The system is well-known as the Diffuse Interface model describing the motion of a vaper-liquid mixture in a compressible viscous fluid. The purposes of this paper are to obtain the global-in-time solution around the constant equilibrium states (*,0) (*>0) satisfying the estimate on the analyticity as established by Foias-Temam (1989), and investigate the Lp-L1 type time-decay estimates in scaling critical settings based on Fourier-Herz spaces. In addition, we also derive the first order asymptotic formula with higher derivatives for solutions as the application of the analyticity.