超曲面上的投影不变和仿射不变 PDEs

Pub Date : 2024-04-25 DOI:10.1017/s0013091524000233

Dmitri Alekseevsky, Gianni Manno, Giovanni Moreno

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引用次数: 0

摘要

在Communications in Contemporary Mathematics24 3, (2022)一文中，作者提出了一种方法，用于在对Lie群G的温和假设下，构造施加于$(n+1)$维均质空间$G/H$的超曲面上的G不变偏微分方程（PDEs）。本文将该方法分别应用于 $G=\mathsf{PGL}(n+1)$ （分别为 $G=\mathsf{Aff}(n+1)$ ）和均相空间 $G/H$ 为 $(n+1)$ 维投影 $\mathbb{P}^{n+1}$ （分别为仿射 $\mathbb{A}^{n+1}$ ）空间的情况。本文的主要结果是，具有 n 个独立未知变量的投影或仿射不变 PDE 与 n 变量无迹三次方形式空间的不变超曲面一一对应，且与 $\mathbb{R}^{d,n-d}$ 的共形变换组 $\mathsf{CO}(d,n-d)$ 有关。

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Projectively and affinely invariant PDEs on hypersurfaces

In Communications in Contemporary Mathematics24 3, (2022),the authors have developed a method for constructing G-invariant partial differential equations (PDEs) imposed on hypersurfaces of an

$(n+1)$

-dimensional homogeneous space

$G/H$

, under mild assumptions on the Lie group G. In the present paper, the method is applied to the case when

$G=\mathsf{PGL}(n+1)$

(respectively,

$G=\mathsf{Aff}(n+1)$

) and the homogeneous space

$G/H$

is the

$(n+1)$

-dimensional projective

$\mathbb{P}^{n+1}$

(respectively, affine

$\mathbb{A}^{n+1}$

) space, respectively. The main result of the paper is that projectively or affinely invariant PDEs with n independent and one unknown variables are in one-to-one correspondence with invariant hypersurfaces of the space of trace-free cubic forms in n variables with respect to the group

$\mathsf{CO}(d,n-d)$

of conformal transformations of

$\mathbb{R}^{d,n-d}$

.

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