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Partially dissipative one-dimensional hyperbolic systems in the critical regularity setting, and applications

Here we develop a method for investigating global strong solutions of partially dissipative hyperbolic systems in the critical regularity setting. Compared to the recent works by Kawashima and Xu, we use hybrid Besov spaces with different regularity exponent in low and high frequency. This allows to consider more general data and to track the exact dependency on the dissipation parameter for the solution. Our approach enables us to go beyond the L^2 framework in the treatment of the low frequencies of the solution, which is totally new, to the best of our knowledge. Focus is on the one-dimensional setting (the multi-dimensional case will be considered in a forthcoming paper) and, for expository purpose, the first part of the paper is devoted to a toy model that may be seen as a simplification of the compressible Euler system with damping. More elaborated systems (including the compressible Euler system with general increasing pressure law) are considered at the end of the paper.

preprint2021arXivOpen access
Timothée Crin-BaratRaphael Danchin
math.AP
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Timothée Crin-BaratRaphael Danchin

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