Stochastic non-isotropic degenerate parabolic–hyperbolic equations
Copyright policy )Stochastic non-isotropic degenerate parabolic–hyperbolic equations
We introduce the notion of pathwise entropy solutions for a class of degenerate parabolic-hyperbolic equations with non-isotropic nonlinearity and fluxes with rough time dependence and prove their well-posedness. In the case of Brownian noise and periodic boundary conditions, we prove that the pathwise entropy solutions converge to their spatial average and provide an estimate on the rate of convergence. The third main result of the paper is a new regularization result in the spirit of averaging lemmata. This work extends both the framework of pathwise entropy solutions for stochastic scalar conservation laws introduced by Lions, Perthame and Souganidis and the analysis of the long time behavior of stochastic scalar conservation laws by the authors to a new class of equations.
35 pages
- Max Planck Society Germany
- Max Planck Institute for Mathematics in the Sciences Germany
- University of Chicago United States
invariant measure, parabolic-hyperbolic equations, random attractor, Probability (math.PR), random dynamical systems, stochastic scalar conservation laws, Mathematics - Analysis of PDEs, Stochastic partial differential equations (aspects of stochastic analysis), Hyperbolic conservation laws, FOS: Mathematics, averaging lemma, PDEs with randomness, stochastic partial differential equations, Mathematics - Probability, H6015, 35R60, 35L65, Analysis of PDEs (math.AP)
invariant measure, parabolic-hyperbolic equations, random attractor, Probability (math.PR), random dynamical systems, stochastic scalar conservation laws, Mathematics - Analysis of PDEs, Stochastic partial differential equations (aspects of stochastic analysis), Hyperbolic conservation laws, FOS: Mathematics, averaging lemma, PDEs with randomness, stochastic partial differential equations, Mathematics - Probability, H6015, 35R60, 35L65, Analysis of PDEs (math.AP)
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