Linear instabilities of the Prandtl equations via the harmonic oscillator

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• Francesco De Anna (Julius-Maximilians-Universität Würzburg)
• Tuesday 19 August 2025, 14:00-14:45
• Seminar Room 1, Newton Institute.

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DNMW06 - Recent challenges in the mathematical design of new materials

Boundary layers are regions near a solid boundary where fluid flows exhibit strong gradients, often giving rise to instabilities, turbulence, and wave phenomena such as Tollmien–Schlichting modes. The Prandtl equations are among the most widely studied models, intended to represent the leading-order behavior of viscous boundary layers in the vanishing-viscosity limit. In a seminal result, Gérard-Varet and Dormy proved the ill-posedness of these equations in Sobolev spaces around certain non-monotonic shear flows, by implicitly constructing unstable quasi-eigenmodes whose growth in time is governed by a Gevrey-class 2 dispersion relation (a regularity level intermediate between Sobolev and analytic classes). In collaboration with J. Kortum (University of Würzburg), we show that these unstable quasi-eigenmodes can in fact be constructed explicitly, using hypergeometric functions of the first kind and appropriate eigenfunctions of the harmonic oscillator. This explicit formulation helps clarify the nature of the instability mechanism and offers further insight into the conditions required for ill-posedness in more regular function spaces, such as the Gevrey classes.

This talk is part of the Isaac Newton Institute Seminar Series series.

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