Gung-Min Gie, Christopher Henderson, Gautam Iyer, Landon Kavlie, Jared P. Whitehead
Published 2014-11-21Version 1
We study the long-time behavior an extended Navier-Stokes system in $\R^2$ where the incompressibility constraint is relaxed. This is one of several "reduced models" of Grubb and Solonnikov '89 and was revisited recently (Liu, Liu, Pego '07) in bounded domains in order to explain the fast convergence of certain numerical schemes (Johnston, Liu '04). Our first result shows that if the initial divergence of the fluid velocity is mean zero, then the Oseen vortex is globally asymptotically stable. This is the same as the Gallay Wayne '05 result for the standard Navier-Stokes equations. When the initial divergence is not mean zero, we show that the analogue of the Oseen vortex exists and is stable under small perturbations. For completeness, we also prove global well-posedness of the system we study.
Comments: 25 pages, 1 figure
Coercivity and stability results for an extended Navier-Stokes system
Ergodic Functions That are not Almost Periodic Plus $L^1-$Mean Zero
Global stability of vortex solutions of the two-dimensional Navier-Stokes equation
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