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Almost Exponential Decay of Periodic Viscous Surface Waves without Surface Tension

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Abstract

We consider a viscous fluid of finite depth below the air, occupying a three-dimensional domain bounded below by a fixed solid boundary and above by a free moving boundary. The fluid dynamics are governed by the gravity-driven incompressible Navier–Stokes equations, and the effect of surface tension is neglected on the free surface. The long time behavior of solutions near equilibrium has been an intriguing question since the work of Beale (Commun Pure Appl Math 34(3):359–392, 1981). This paper is the third in a series of three (Guo in Local well-posedness of the viscous surface wave problem without surface tension, Anal PDE 2012, to appear; in Decay of viscous surface waves without surface tension in horizontally infinite domains, Preprint, 2011) that answers this question. Here we consider the case in which the free interface is horizontally periodic; we prove that the problem is globally well-posed and that solutions decay to equilibrium at an almost exponential rate. In particular, the free interface decays to a flat surface. Our framework contains several novel techniques, which include: (1) a priori estimates that utilize a “geometric” reformulation of the equations; (2) a two-tier energy method that couples the boundedness of high-order energy to the decay of low-order energy, the latter of which is necessary to balance out the growth of the highest derivatives of the free interface; (3) a localization procedure that is compatible with the energy method and allows for curved lower surface geometry. Our decay estimates lead to the construction of global-in-time solutions to the surface wave problem.

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  1. Division of Applied Mathematics, Brown University, 182 George St., Providence, RI, 02912, USA

    Yan Guo & Ian Tice

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  1. Yan Guo
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  2. Ian Tice
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Correspondence to Ian Tice.

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Communicated by F. Lin

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Guo, Y., Tice, I. Almost Exponential Decay of Periodic Viscous Surface Waves without Surface Tension. Arch Rational Mech Anal 207, 459–531 (2013). https://doi.org/10.1007/s00205-012-0570-z

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  • DOI: https://doi.org/10.1007/s00205-012-0570-z

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