English

The Hidden M-Group

High Energy Physics - Theory 2026-01-12 v1 Mathematical Physics Differential Geometry math.MP

Abstract

Following arguments that the (hidden) M-algebra serves as the maximal super-exceptional tangent space for 11D supergravity, we make explicit here its integration to a (super-Lie) group. This is equipped with a left-invariant extension of the ''decomposed'' M-theory 3-form, such that it constitutes the Kleinian space on which super-exceptional spacetimes are to be locally modeled as Cartan geometries. As a simple but consequential application, we highlight how to describe lattice subgroups Zk528\mathbb{Z}^{k \leq 528} of the hidden M-group that allow to toroidially compactify also the ''hidden'' dimensions of a super-exceptional spacetime, akin to the familiar situation in topological T-duality. In order to deal with subtleties in these constructions, we (i) provide a computer-checked re-derivation of the ''decompose'' M-theory 3-form, and (ii) present a streamlined conception of super-Lie groups, that is both rigorous while still close to physics intuition and practice. Thereby this article highlights modernized super-Lie theory along the example of the hidden M-algebra, with an eye towards laying foundations for super-exceptional geometry. Among new observations is the dimensional reduction of the hidden M-algebra to a ''hidden IIA-algebra'' which in a companion article we explain as the exceptional extension of the T-duality doubled super-spacetime.

Keywords

Cite

@article{arxiv.2411.11963,
  title  = {The Hidden M-Group},
  author = {Grigorios Giotopoulos and Hisham Sati and Urs Schreiber},
  journal= {arXiv preprint arXiv:2411.11963},
  year   = {2026}
}

Comments

40 pages

R2 v1 2026-06-28T20:04:08.834Z