Radial transonic shock solutions of Euler-Poisson system in convergent nozzles
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🧮 math.AP
math-phmath.CAmath.MP
keywords
constantconvergenteuler-poissonflownozzlepressureshocksystem
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Given constant data of density $\rho_0$, velocity $-u_0{\bf e}_r$, pressure $p_0$ and electric force $-E_0{\bf e}_r$ for supersonic flow at the entrance, and constant pressure $p_{\rm ex}$ for subsonic flow at the exit, we prove that Euler-Poisson system admits a unique transonic shock solution in a two dimensional convergent nozzle, provided that $u_0>0$, $E_0>0$, and that $E_0$ is sufficiently large depending on $(\rho_0, u_0, p_0)$ and the length of the nozzle.
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