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| Auteurs principaux: | , |
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| Format: | Preprint |
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2024
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| Accès en ligne: | https://arxiv.org/abs/2401.10096 |
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| _version_ | 1866908441156517888 |
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| author | Ginsberg, Daniel Pusateri, Fabio |
| author_facet | Ginsberg, Daniel Pusateri, Fabio |
| contents | We consider the Cauchy problem for the full free boundary Euler equations in $3$d with an initial small velocity of size $O(ε_0)$, in a moving domain which is initially an $O(ε_0)$ perturbation of a flat interface. We assume that the initial vorticity is of size $O(ε_1)$ and prove a regularity result up to times of the order $ε_1^{-1+}$, independent of $ε_0$. A key part of our proof is a normal form type argument for the vorticity equation; this needs to be performed in the full three dimensional domain and is necessary to effectively remove the irrotational components from the quadratic stretching terms and uniformly control the vorticity. Another difficulty is to obtain sharp decay for the irrotational component of the velocity and the interface; to do this we perform a dispersive analysis on the boundary equations, which are forced by a singular contribution from the rotational component of the velocity. As a corollary of our result, when $ε_1$ goes to zero we recover the celebrated global regularity results of Wu (Invent. Math. 2012) and Germain, Masmoudi and Shatah (Ann. of Math. 2013) in the irrotational case. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2401_10096 |
| institution | arXiv |
| publishDate | 2024 |
| record_format | arxiv |
| spellingShingle | Long time regularity for 3d gravity waves with vorticity Ginsberg, Daniel Pusateri, Fabio Analysis of PDEs We consider the Cauchy problem for the full free boundary Euler equations in $3$d with an initial small velocity of size $O(ε_0)$, in a moving domain which is initially an $O(ε_0)$ perturbation of a flat interface. We assume that the initial vorticity is of size $O(ε_1)$ and prove a regularity result up to times of the order $ε_1^{-1+}$, independent of $ε_0$. A key part of our proof is a normal form type argument for the vorticity equation; this needs to be performed in the full three dimensional domain and is necessary to effectively remove the irrotational components from the quadratic stretching terms and uniformly control the vorticity. Another difficulty is to obtain sharp decay for the irrotational component of the velocity and the interface; to do this we perform a dispersive analysis on the boundary equations, which are forced by a singular contribution from the rotational component of the velocity. As a corollary of our result, when $ε_1$ goes to zero we recover the celebrated global regularity results of Wu (Invent. Math. 2012) and Germain, Masmoudi and Shatah (Ann. of Math. 2013) in the irrotational case. |
| title | Long time regularity for 3d gravity waves with vorticity |
| topic | Analysis of PDEs |
| url | https://arxiv.org/abs/2401.10096 |