Reversal in the Stationary Prandtl Equations
| Autor: | Iyer, Sameer, Masmoudi, Nader |
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| Rok vydání: | 2022 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | We demonstrate the existence of an open set of data which exhibits \textit{reversal} and \textit{recirculation} for the stationary Prandtl equations (data is taken in an appropriately defined product space due to the simultaneous forward and backward causality in the problem). Reversal describes the development of the solution beyond the Goldstein singularity, and is characterized by the presence of (spatio-temporal) regions in which $u > 0$ and $u < 0$. The classical point of view of regarding the system as an evolution in the tangential direction completely breaks down past the Goldstein singularity. Instead, to describe the development, we view the problem as a \textit{mixed-type, non-local, quasilinear, free-boundary} problem across the curve $\{ u = 0 \}$. In a well-chosen nonlinear and self-similar coordinate system, we extract a coupled system for the bulk solution and several modulation variables describing the free boundary. Our work combines and introduces techniques from mixed-type problems, free-boundary problems, modulation theory, harmonic analysis, and spectral theory. As a byproduct, we obtain several new cancellations in the Prandtl equations, and develop several new estimates tailored to singular integral operators with Airy type kernels. Comment: v4: more details added to several arguments, 131 pages |
| Databáze: | arXiv |
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