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Convergence rate of solutions to strong contact discontinuity for the one-dimensional compressible radiation hydrodynamics model. (English) Zbl 1363.35243

Summary: This paper is concerned with a singular limit for the one-dimensional compressible radiation hydrodynamics model. The singular limit we consider corresponds to the physical problem of letting the Bouguer number infinite while keeping the Boltzmann number constant. In the case when the corresponding Euler system admits a contact discontinuity wave, some researchers recently verified this singular limit and proved that the solution of the compressible radiation hydrodynamics model converges to the strong contact discontinuity wave in the \(L^\infty\)-norm away from the discontinuity line at a rate of \(\varepsilon^{1/4}\), as the reciprocal of the Bouguer number tends to zero. In this paper, convergence rate above mentioned is improved to \(\varepsilon^{7/8}\) by introducing a new a priori assumption and some refined energy estimates. Moreover, it is shown that the radiation flux \(q\) tends to zero in the \(L^\infty\)-norm away from the discontinuity line, at a convergence rate as the reciprocal of the Bouguer number tends to zero.

MSC:

35L65 Hyperbolic conservation laws
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