Abstract
We propose a -dimensional action that is a candidate for realizing a standard-model-like effective theory for fields dynamically localized to a domain-wall brane. Our construction is in part based on the conjecture that the Dvali-Shifman mechanism for dynamically localizing gauge bosons to a domain wall works correctly in . Assuming this to be so, we require the gauge symmetry to be SU(5) in the bulk, spontaneously breaking to inside the domain wall, thus dynamically localizing the standard-model gauge bosons provided that the SU(5) theory in the bulk exhibits confinement. The wall is created jointly by a real singlet-Higgs field configured as a kink, and an SU(5) adjoint-Higgs field that takes nonzero values inside the wall. Chiral -dimensional quarks and leptons are confined and split along the bulk direction via their Yukawa couplings to and . The Higgs doublet and its color triplet SU(5) partner are similarly localized and split. The splittings can suppress colored-Higgs-induced proton decay and, because of the different localization profiles, the usual SU(5) mass relation does not arise. Localized gravity is generated via the Randall-Sundrum alternative to compactification.
- Received 11 May 2007
DOI:https://doi.org/10.1103/PhysRevD.77.124038
©2008 American Physical Society