Seminar| Institute of Mathematical Sciences
Time:Friday, March 31st, 2023, 15:00-16:00
Location:RS408, IMS
Speaker: Shengguo Zhu, SJTU
Abstract: The Cauchy problem for the 3-D full degenerate compressible Navier-Stokes equations with far field vacuum is considered. First, when shear and bulk viscosity coefficients both depend on the absolute temperature in a power law of Chapman-Enskog, based on some elaborate analysis of this system’s intrinsic singular structures, we identify one class of initial data admitting a local-in-time regular solution with far field vacuum in terms of the mass density, velocity and entropy. Furthermore, it is shown that within its life span of such a regular solution, the velocity stays in an inhomogeneous Sobolev space, the entropy has uniformly finite lower and upper bounds in the whole space, and the laws of conservation of total mass, momentum and total energy are all satisfied. Note that due to the appearance of the vacuum, the momentum equations are degenerate both in the time evolution and viscous stress tensor, and the physical entropy for polytropic gases behaves singularly, which make the study on corresponding well-posedness challenging. For proving the existence, we first introduce an enlarged reformulated structure by considering some new variables, which can transfer the degeneracies of the full CNS to the possible singularities of some special source terms related with the entropy, and then carry out some singularly weighted energy estimates carefully designed for this reformulated system. This talk is based on a joint work with Dr. Qin Duan (SZU) and Prof. Zhouping Xin (CUHK).