Harmonic flow of geometric structures

IF 0.6 3区数学 Q3 MATHEMATICS

Annals of Global Analysis and Geometry Pub Date : 2023-10-17 DOI:10.1007/s10455-023-09928-7

Eric Loubeau, Henrique N. Sá Earp

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引用次数: 14

Abstract

We give a twistorial interpretation of geometric structures on a Riemannian manifold, as sections of homogeneous fibre bundles, following an original insight by Wood (Differ Geom Appl 19:193–210, 2003). The natural Dirichlet energy induces an abstract harmonicity condition, which gives rise to a geometric gradient flow. We establish a number of analytic properties for this flow, such as uniqueness, smoothness, short-time existence, and some sufficient conditions for long-time existence. This description potentially subsumes a large class of geometric PDE problems from different contexts. As applications, we recover and unify a number of results in the literature: for the isometric flow of \(\text {G}_2\)-structures, by Grigorian (Adv Math 308:142–207, 2017; Calculas Variat Partial Differ Equ 58:157, 2019), Bagaglini (J Geom Anal, 2009), and Dwivedi-Gianniotis-Karigiannis (J Geom Anal 31(2):1855-1933, 2021); and for harmonic almost complex structures, by He (Energy minimizing harmonic almost complex structures, 2019) and He-Li (Trans Am Math Soc 374(9):6179–6199, 2021). Our theory also establishes original properties regarding harmonic flows of parallelisms and almost contact structures.

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几何结构的谐波流动

根据Wood的原始见解（Differ Geom Appl 19:193–2102003），我们对黎曼流形上的几何结构（作为均匀纤维束的截面）进行了扭曲解释。自然狄利克雷能量诱导了一个抽象的调和条件，从而产生了几何梯度流。我们建立了该流的一些解析性质，如唯一性、光滑性、短时存在性和长期存在的一些充分条件。这一描述可能包含了来自不同背景的一大类几何PDE问题。作为应用，我们恢复并统一了文献中的许多结果：对于\（\text的等距流{G}_2\)-Grigorian的《结构》（Adv Math 308:142–2072017；微积分变分偏微分方程58:1572019）、Bagaglini（J Geom Anal，2009）和Dwivedi Giannotis Karigiannis（J Geom-Anal 31（2）：1855-19332021）；对于谐波几乎复杂的结构，何（能量最小化谐波几乎复杂结构，2019）和何力（Trans-Am Math Soc 374（9）：6179–61992021）。我们的理论还建立了关于平行体和几乎接触结构的调和流的原始性质。

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来源期刊

Annals of Global Analysis and Geometry 数学-数学

CiteScore

1.20

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： This journal examines global problems of geometry and analysis as well as the interactions between these fields and their application to problems of theoretical physics. It contributes to an enlargement of the international exchange of research results in the field. The areas covered in Annals of Global Analysis and Geometry include: global analysis, differential geometry, complex manifolds and related results from complex analysis and algebraic geometry, Lie groups, Lie transformation groups and harmonic analysis, variational calculus, applications of differential geometry and global analysis to problems of theoretical physics.