English

Quartification On An Orbifold

High Energy Physics - Phenomenology 2008-11-26 v2

Abstract

We investigate quartification models in five dimensions, with the fifth dimension forming an S1/Z2×Z2S^1/Z_2\times Z_2' orbifold. The orbifold construction is combined with a boundary Higgs sector to break the quartified gauge group directly to a group HSU(3)4H\subset SU(3)^4 which is operative at the electroweak scale. We consider H=GSMSU(2)H=G_{SM}\otimes SU(2)_\ell and H=GSMH=G_{SM}, where GSMG_{SM} is the standard model gauge group, and find that unification occurs only when the remnant leptonic colour symmetry SU(2)SU(2)_\ell remains unbroken. Furthermore, the demands of a realistic low energy fermion spectrum specify a unique symmetry breaking route for the unifying case of H=GSMSU(2)H=G_{SM}\otimes SU(2)_\ell. We contrast this with four dimensional quartification models where unification may be achieved via a number of different symmetry breaking routes both with and without the remnant SU(2)SU(2)_\ell symmetry. The boundary Higgs sector of our model may be decoupled to achieve a Higgsless limit and we show that the electroweak Higgs doublet may be identified as the fifth component of a higher dimensional gauge field.

Keywords

Cite

@article{arxiv.hep-ph/0610346,
  title  = {Quartification On An Orbifold},
  author = {Alison Demaria and Kristian L. McDonald},
  journal= {arXiv preprint arXiv:hep-ph/0610346},
  year   = {2008}
}

Comments

14 pages, misprint corrected, matches PRD version