English

Exterior Generalised Geometry

Differential Geometry 2025-07-17 v1 General Relativity and Quantum Cosmology

Abstract

It is the aim of this paper to transfer to generalised geometry tools employed in the study of semi-Riemannian immersions, specializing at times to semi-Riemannian hypersurfaces. Given an exact Courant algebroid EME \to M and an immersion ι ⁣:NM\iota\colon N \hookrightarrow M, there is a well-known construction of an exact Courant algebroid ι!EN\iota^! E \to N, the pullback of EE. This paper explains the pullback of generalised metrics and divergence operators. Assuming NN is a hypersurface, it develops the notion of generalised exterior curvature, introducing the generalised second fundamental form and the generalised mean curvature. Generalised versions of the Gau{\ss}-Codazzi equations are obtained. As an application, the constraint equations for the initial value formulation of the generalised Einstein equations are established in the formalism of generalised geometry. Further applications include a generalised geometry version of the fundamental theorem for hypersurfaces and the result that generalised K\"ahler and hyper-K\"ahler structures restrict to submanifolds compatible with the generalised almost complex structure. In particular, we characterise exact semi-Riemannian Courant algebroids which are flat with respect to the canonical generalised connection. These play the role of the ambient space in the fundamental theorem mentioned above.

Keywords

Cite

@article{arxiv.2507.12362,
  title  = {Exterior Generalised Geometry},
  author = {Vicente Cortés and Oskar Schiller},
  journal= {arXiv preprint arXiv:2507.12362},
  year   = {2025}
}

Comments

76 pages

R2 v1 2026-07-01T04:04:33.065Z