Symmetry in stationary and uniformly rotating solutions of active scalar equations

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2019-08-05 DOI:10.1215/00127094-2021-0002

Javier G'omez-Serrano, Jaemin Park, Jia Shi, Yao Yao

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引用次数: 43

Abstract

In this paper, we study the radial symmetry properties of stationary and uniformly-rotating solutions of the 2D Euler and gSQG equations, both in the smooth setting and the patch setting. For the 2D Euler equation, we show that any smooth stationary solution with compactly supported and nonnegative vorticity must be radial, without any assumptions on the connectedness of the support or the level sets. In the patch setting, for the 2D Euler equation we show that every uniformly-rotating patch $D$ with angular velocity $\Omega \leq 0$ or $\Omega\geq \frac{1}{2}$ must be radial, where both bounds are sharp. For the gSQG equation we obtain a similar symmetry result for $\Omega\leq 0$ or $\Omega\geq \Omega_\alpha$ (with the bounds being sharp), under the additional assumption that the patch is simply-connected. These results settle several open questions in [T. Hmidi, J. Evol. Equ., 15(4): 801-816, 2015] and [F. de la Hoz, Z. Hassainia, T. Hmidi, and J. Mateu, Anal. PDE, 9(7):1609-1670, 2016] on uniformly-rotating patches. Along the way, we close a question on overdetermined problems for the fractional Laplacian [R. Choksi, R. Neumayer, and I. Topaloglu, Arxiv preprint arXiv:1810.08304, 2018, Remark 1.4], which may be of independent interest. The main new ideas come from a calculus of variations point of view.

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有源标量方程稳态和均匀旋转解的对称性

本文研究了二维Euler方程和gSQG方程在光滑和贴片条件下的稳态解和均匀旋转解的径向对称性。对于二维欧拉方程，我们证明了任何具有紧支撑和非负涡度的光滑平稳解必须是径向的，而不需要假设支撑或水平集的连通性。在贴片设置中，对于二维欧拉方程，我们表明每个具有角速度$\Omega \leq 0$或$\Omega\geq \frac{1}{2}$的均匀旋转贴片$D$必须是径向的，其中两个边界都是尖锐的。对于gSQG方程，我们在附加假设patch是单连通的情况下，对$\Omega\leq 0$或$\Omega\geq \Omega_\alpha$(边界很明显)获得了类似的对称结果。这些结果解决了[T]中的几个开放性问题。J.进化。等式。[j] .中国机械工程，2015(4):801-816。de la Hoz, Z. Hassainia, T. Hmidi和J. Mateu, Anal。地球物理学报，9(7):1609-1670,2016 [j]。在此过程中，我们结束了分数阶拉普拉斯函数的超定问题。Choksi, R. Neumayer, and I. Topaloglu, Arxiv预印本[j] . [j] .预印本[j] . vol . 11(4):1 - 2, 2018。主要的新思想来自变分演算的观点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464