复$k$-Hessian函数的狄利克特原理

IF 0.7 4区数学 Q2 MATHEMATICS

Communications in Analysis and Geometry Pub Date : 2024-07-29 DOI:10.4310/cag.2023.v31.n10.a7

Wang,Yi, Xu,Hang

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引用次数: 0

摘要

我们研究了边界为 $M=\partial X$ 的有界域 $X\subset \mathbb C^{n}$ 上复 $k$-Hessian 方程的变分结构。我们证明了德里赫特问题 $\sigma _{k}(\partial \bar{partial} u) =0$ in $X$, and $u=f$ on $M$ is variational and we give an explicit construction of the associated functional $ \mathcal{E}_{k}(u)$.此外，我们还证明 $ \mathcal{E}_{k}(u)$ 满足德里赫特原理。在 $k=2$ 的特殊情况下，我们构造的函数 $ \mathcal{E}_{2}(u)$ 涉及边界的赫尔墨斯平均曲率，这一概念由王旭东首次提出并研究[37]。J. Case 和本文第一作者的早期研究[9]为（实）$k$-Hessian 函数引入了一个满足狄利克特原理的边界算子。本文表明，在复数环境中也有类似的情况。

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The Dirichlet principle for the complex $k$-Hessian functional

We study the variational structure of the complex $k$-Hessian equation on bounded domain $X\subset \mathbb C^{n}$ with boundary $M=\partial X$. We prove that the Dirichlet problem $\sigma _{k} (\partial \bar{\partial} u) =0$ in $X$, and $u=f$ on $M$ is variational and we give an explicit construction of the associated functional $ \mathcal{E}_{k}(u)$. Moreover we prove $ \mathcal{E}_{k}(u)$ satisfies the Dirichlet principle. In a special case when $k=2$, our constructed functional $ \mathcal{E}_{2}(u)$ involves the Hermitian mean curvature of the boundary, the notion first introduced and studied by X. Wang [37]. Earlier work of J. Case and and the first author of this article [9] introduced a boundary operator for the (real) $k$-Hessian functional which satisfies the Dirichlet principle. The present paper shows that there is a parallel picture in the complex setting.

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来源期刊

Communications in Analysis and Geometry 数学-数学

CiteScore

1.60

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Publishes high-quality papers on subjects related to classical analysis, partial differential equations, algebraic geometry, differential geometry, and topology.