English

Beyond the standard model with six-dimensional spinors

General Physics 2023-02-16 v3 High Energy Physics - Phenomenology High Energy Physics - Theory

Abstract

6D spinors with Spin(3,3)Spin(3,3) symmetry are utilized to efficiently encode three generations of matter. E8(24)E_{8(-24)} is shown to contain physically relevant subgroups with representations for GUT groups, spacetime symmetries, three generations of the standard model fermions, and Higgs bosons. Pati-Salam, SU(5)SU(5), and Spin(10)Spin(10) grand unified theories are found when a single generation is isolated. For spacetime symmetries, Spin(4,2)Spin(4,2) may be used for conformal symmetry, AdS5dS4AdS_5\rightarrow dS_4, or simply broken to Spin(3,1)Spin(3,1) of Minkowski space. Another class of representations finds Spin(2,2)Spin(2,2) and can give AdS3AdS_3 with various GUTs. An action for three generations of fermions in the Majorana-Weyl spinor 128{\bf 128} of Spin(4,12)Spin(4,12) is found with Spin(3)Spin(3) flavor symmetry inside E8(24)E_{8(-24)}. The 128{\bf 128} of Spin(4,12)Spin(4,12) can be regarded as the tangent space to a particular pseudo-Riemannian form of the octo-octonionic Rosenfeld projective plane E8(24)/Spin(4,12)=(Os×O)P2E_{8(-24)}/Spin(4,12)= (\mathbb{O}_s\times\mathbb{O})\mathbb{P}^2.

Keywords

Cite

@article{arxiv.2002.02391,
  title  = {Beyond the standard model with six-dimensional spinors},
  author = {David Chester and Michael Rios and Alessio Marrani},
  journal= {arXiv preprint arXiv:2002.02391},
  year   = {2023}
}

Comments

28 pages with references, 1 figure; v3: Abstract changed, various updates based on feedback from referees, addition of Lagrangian for 3 generations

R2 v1 2026-06-23T13:33:20.400Z