走向扩展/更高的对应关系

IF 0.5 Q3 MATHEMATICS

Complex Manifolds Pub Date : 2021-01-01 DOI:10.1515/coma-2020-0121

L. Alfonsi

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引用次数: 2

摘要

摘要在这篇短文中，我们将回顾双场论的二重几何与丛gerbes的高等几何之间的对应关系的提出。二重场论是弦理论超重力极限的T-对偶协变公式，它通过统一度量和二重维空间上的Kalb-Ramond场来推广Kaluza-Klein理论。根据所提出的对应关系，这种二重几何被解释为丛gerbes的高等几何的图谱描述。在这个意义上，双场论可以被解释为一个存在于丛gerbe的全空间上的场论，就像Kaluza-Klein理论被设置在主丛的全空间一样。这种对应关系为准埃尔米特几何提供了更高的几何解释，为其推广到例外场论打开了大门。本综述基于但不限于我在2020年3月3日汉堡大学广义几何与应用研讨会上的演讲。

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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Towards an extended/higher correspondence

Abstract In this short paper, we will review the proposal of a correspondence between the doubled geometry of Double Field Theory and the higher geometry of bundle gerbes. Double Field Theory is T-duality covariant formulation of the supergravity limit of String Theory, which generalises Kaluza-Klein theory by unifying metric and Kalb-Ramond field on a doubled-dimensional space. In light of the proposed correspondence, this doubled geometry is interpreted as an atlas description of the higher geometry of bundle gerbes. In this sense, Double Field Theory can be interpreted as a field theory living on the total space of the bundle gerbe, just like Kaluza-Klein theory is set on the total space of a principal bundle. This correspondence provides a higher geometric interpretation for para-Hermitian geometry which opens the door to its generalisation to Exceptional Field Theory. This review is based on, but not limited to, my talk at the workshop Generalized Geometry and Applications at Universität Hamburg on 3rd of March 2020.

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来源期刊

Complex Manifolds MATHEMATICS-

CiteScore

1.30

自引率

20.00%

发文量

审稿时长

25 weeks

期刊介绍： Complex Manifolds is devoted to the publication of results on these and related topics: Hermitian geometry, Kähler and hyperkähler geometry Calabi-Yau metrics, PDE''s on complex manifolds Generalized complex geometry Deformations of complex structures Twistor theory Geometric flows on complex manifolds Almost complex geometry Quaternionic geometry Geometric theory of analytic functions Holomorphic dynamics Several complex variables Dolbeault cohomology CR geometry.