Gauge Field Localization in the Linear Dilaton Background
Abstract
We study dynamical self-localization of gauge theories in higher dimensions. Specifically, we consider a 5D gauge theory in the linear dilaton (clockwork) background, with anisotropic gauge couplings along the transverse (fifth) direction and the longitudinal (four-dimensional) directions. By using lattice techniques, we calculate the space plaquettes and the helicity moduli and we determine the phase diagram of the model. We find strong evidence that the model exhibits a new phase, a layer phase, where the four-dimensional physics decouples from the five-dimensional dynamics. The layer phase corresponds to a strong force along the fifth direction and a Coulomb phase along the four-dimensional longitudinal directions. This is in accordance with the clockwork mechanism where light particles with exponentially suppressed interactions are generated in theories with no fundamental small parameters.
Cite
@article{arxiv.2004.14856,
title = {Gauge Field Localization in the Linear Dilaton Background},
author = {K. Farakos and A. Kehagias and G. Koutsoumbas},
journal= {arXiv preprint arXiv:2004.14856},
year = {2020}
}
Comments
16 pages, 7 figures