Extrinsic geometry of calibrated submanifolds

IF 1 3区数学 Q1 MATHEMATICS

Mathematische Zeitschrift Pub Date : 2024-05-13 DOI:10.1007/s00209-024-03503-x

Spiro Karigiannis, Lucía Martín-Merchán

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Abstract

Given a calibration \(\alpha \) whose stabilizer acts transitively on the Grassmanian of calibrated planes, we introduce a nontrivial Lie-theoretic condition on \(\alpha \), which we call compliancy, and show that this condition holds for many interesting geometric calibrations, including Kähler, special Lagrangian, associative, coassociative, and Cayley. We determine a sufficient condition that ensures compliancy of \(\alpha \), we completely characterize compliancy in terms of properties of a natural involution determined by a calibrated plane, and we relate compliancy to the geometry of the calibrated Grassmanian. The condition that a Riemannian immersion \(\iota :L \rightarrow M\) be calibrated is a first order condition. By contrast, its extrinsic geometry, given by the second fundamental form A and the induced tangent and normal connections \(\nabla \) on TL and D on NL, respectively, is second order information. We characterize the conditions imposed on the extrinsic geometric data \((A, \nabla , D)\) when the Riemannian immersion \(\iota :L \rightarrow M\) is calibrated with respect to a calibration \(\alpha \) on M which is both parallel and compliant. This motivate the definition of an infinitesimally calibrated Riemannian immersion, generalizing the classical notion of a superminimal surface in \({\mathbb {R}}^4\).

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校准子曼形体的外几何学

给定一个校准（\α \），它的稳定子在校准平面的格拉斯曼上起传递作用，我们在 \(\α \)上引入了一个非难的李理论条件，我们称之为自洽性，并证明这个条件对许多有趣的几何校准都成立，包括凯勒校准、特殊拉格朗日校准、关联校准、共轭校准和卡莱校准。我们确定了确保 \(\alpha \)自洽性的充分条件，我们用由标定平面决定的自然卷积的性质完全描述了自洽性，我们将自洽性与标定格拉斯曼几何联系起来。黎曼沉浸（\iota :L \rightarrow M\ ）被校准的条件是一阶条件。与此相反，由第二基本形式 A 以及 TL 上的切线和法线连接（induced tangent and normal connections \(\nabla \) on TL and D on NL, respectively）给出的外在几何是二阶信息。我们描述了当黎曼沉浸（（iota :L \rightarrow M\）相对于 M 上的校准（（alpha \）既平行又顺从）被校准时施加在外在几何数据（（A, \nabla , D））上的条件。这就给出了无穷小校准的黎曼沉浸的定义，概括了 \({\mathbb {R}}^4\) 中超小面的经典概念。

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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