Gauge-flavon unification
Abstract
In this paper we propose the idea that flavons can emerge from extra dimensional gauge fields, referred to as gauge-flavon unification (GFU) analogous to gauge-Higgs unification (GHU). We assume that there is a gauged family symmetry in extra dimensions and that the flavons are the extra dimensional components of the gauge field. This provides a simple mechanism to align the VEVs of the flavons through a combination of Wilson lines and orbifold symmetry breaking. We present some simple 5d examples of GFU based on and gauged family symmetry, the latter case yielding gauged family symmetry in 4d, broken by triplet and antitriplet flavons, with effective couplings to fermions. We also present a general formalism for Wilson lines and orbifolds, in any number of dimensions, including non-commutative aspects Wilson lines, which may be useful for aligning additional flavons as required for realistic models.
Cite
@article{arxiv.1911.11781,
title = {Gauge-flavon unification},
author = {Alfredo Aranda and Francisco J. de Anda and Stephen F. King},
journal= {arXiv preprint arXiv:1911.11781},
year = {2020}
}
Comments
v2: Typos corrected. Matches published version. 18 pages, 1 figure