English

$G_2$ flux compactifications

High Energy Physics - Theory 2026-05-11 v1

Abstract

We derive the three-dimensional N=1\mathcal{N}=1 effective theories obtained by compactifying all five ten-dimensional string theories on generic seven-dimensional manifolds with G2G_2 structure. The resulting flux compactifications are worked out explicitly, including the full moduli dependence of the scalar potential, kinetic terms, axionic sectors, gauge fields, St\"uckelberg couplings, and the allowed geometric and form-flux data. Our results extend previous analyses by incorporating fields and fluxes that are generically present in G2G_2 reductions, and provide a unified framework for comparing type IIA, type IIB, type I and heterotic compactifications to three dimensions. In particular, the effective theories organize naturally in terms of the real superpotential formulation of three-dimensional N=1\mathcal{N}=1 supergravity, making the relation between fluxes, torsion, Chern--Simons data, and moduli potentials manifest.

Keywords

Cite

@article{arxiv.2605.06800,
  title  = {$G_2$ flux compactifications},
  author = {Aravind Aikot and Zheng Miao and George Tringas and Timm Wrase},
  journal= {arXiv preprint arXiv:2605.06800},
  year   = {2026}
}

Comments

51 pages

R2 v1 2026-07-01T12:55:59.975Z