Spectral stability of noncharacteristic isentropic Navier-Stokes boundary layers

Building on work of Barker, Humpherys, Lafitte, Rudd, and Zumbrun in the shock wave case, we study stability of compressive, or "shock-like", boundary layers of the isentropic compressible Navier-Stokes equations with gamma-law pressure by a combination of asymptotic ODE estimates and nume...

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Bibliographic Details
Published in:arXiv.org 2007-06
Main Authors: Costanzino, Nicola, Humpherys, Jeffrey, Nguyen, Toan, Zumbrun, Kevin
Format: Article
Language:English
Subjects:
Amplitudes
Boundary layer
Boundary layers
Compressibility
Computational fluid dynamics
Fluid flow
Inflow
Navier-Stokes equations
Parameter estimation
Shock waves
Stability
Stokes law (fluid mechanics)
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Summary:Building on work of Barker, Humpherys, Lafitte, Rudd, and Zumbrun in the shock wave case, we study stability of compressive, or "shock-like", boundary layers of the isentropic compressible Navier-Stokes equations with gamma-law pressure by a combination of asymptotic ODE estimates and numerical Evans function computations. Our results indicate stability for gamma in the interval [1, 3] for all compressive boundary-layers, independent of amplitude, save for inflow layers in the characteristic limit (not treated). Expansive inflow boundary-layers have been shown to be stable for all amplitudes by Matsumura and Nishihara using energy estimates. Besides the parameter of amplitude appearing in the shock case, the boundary-layer case features an additional parameter measuring displacement of the background profile, which greatly complicates the resulting case structure. Moreover, inflow boundary layers turn out to have quite delicate stability in both large-displacement and large-amplitude limits, necessitating the additional use of a mod-two stability index studied earlier by Serre and Zumbrun in order to decide stability.
ISSN:2331-8422
DOI:10.48550/arxiv.0706.3415