On the Free Boundary Problems of 3-D Compressible Euler Equations Coupled or Uncoupled With a Nonlinear Poisson Equation
Abstract
For the problem of the non-isentropic compressible Euler Equations coupled with a nonlinear Poisson equation with the electric potential satisfying the Dirichlet boundary condition in three spatial dimensions with a general free boundary not restricting to a graph, we identify suitable stability conditions on the electric potential and the pressure under which we obtain a priori estimates on the Sobolev norms of the fluid and electric variables and bounds for geometric quantities of free surface. The stability conditions in this case for a general variable entropy are that the outer normal derivative of the electric potential is positive on the free surface, whereas that on the pressure is negative. In the isentropic case, the stability condition reduces to a single one, the outer normal derivative of the difference of the enthalpy and the electric potential is negative on the free surface. For the free boundary problem of the non-isentropic compressible Euler equations with variable entropy without coupling with the nonlinear Poisson equation, the corresponding higher-order estimates are also obtained under the Taylor sign condition. It is also found that one less derivative is needed to close the energy estimates for the problem for the non-isentropic compressible Euler Equations coupled with a nonlinear Poisson equation when the electric potential satisfies the Dirichlet boundary condition under the stability conditions on the electric potential and the pressure, compared with the problem of the non-isentropic compressible Euler equations.
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