The Soft-Wall Standard Model
Abstract
We explore the possibility of modeling electroweak physics in a warped extra dimension with a soft wall. The infrared boundary is replaced with a smoothly varying dilaton field that provides a dynamical spacetime cutoff. We analyze gravity, gauge fields, and fermions in the soft-wall background and obtain a discrete spectrum of Kaluza-Klein states which can exhibit linear Regge-like behavior. Bulk Yukawa interactions give rise to nonconstant fermion mass terms, leading to fermion localization in the soft-wall background and a possible explanation of the Standard Model flavor structure. Furthermore we construct electroweak models with custodial symmetry, where the gauge symmetry is broken with a bulk Higgs condensate. The electroweak constraints are not as stringent as in hard-wall models, allowing Kaluza-Klein masses of order the TeV scale.
Cite
@article{arxiv.0808.3977,
title = {The Soft-Wall Standard Model},
author = {Brian Batell and Tony Gherghetta and Daniel Sword},
journal= {arXiv preprint arXiv:0808.3977},
year = {2008}
}
Comments
32 pages, 3 figures