中文

Viscous Boundary Value Problems for Symmetric Systems with Variable Multiplicities

偏微分方程分析 2007-05-23 v1

摘要

Extending investigations of M\'etivier&Zumbrun in the hyperbolic case, we treat stability of viscous shock and boundary layers for viscous perturbations of multidimensional hyperbolic systems with characteristics of variable multiplicity, specifically the construction of symmetrizers in the low-frequency regime where variable multiplicity plays a role. At the same time, we extend the boundary-layer theory to ``real'' or partially parabolic viscosities, Neumann or mixed-type parabolic boundary conditions, and systems with nonconservative form, in addition proving a more fundamental version of the Zumbrun--Serre--Rousset theorem, valid for variable multiplicities, characterizing the limiting hyperbolic system and boundary conditions as a nonsingular limit of a reduced viscous system. The new effects of viscosity are seen to be surprisingly subtle; in particular, viscous coupling of crossing hyperbolic modes may induce a destabilizing effect. We illustrate the theory with applications to magnetohydrodynamics.

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引用

@article{arxiv.math/0607065,
  title  = {Viscous Boundary Value Problems for Symmetric Systems with Variable Multiplicities},
  author = {Olivier Gues and Guy Métivier and Mark Williams and Kevin Zumbrun},
  journal= {arXiv preprint arXiv:math/0607065},
  year   = {2007}
}