de Sitter Thick Brane Solution in Weyl Geometry
Abstract
In this paper, we consider a de Sitter thick brane model in a pure geometric Weyl integrable five-dimensional space-time, which is a generalization of Riemann geometry and is invariant under a so-called Weyl rescaling. We find a solution of this model via performing a conformal transformation to map the Weylian structure into a familiar Riemannian one with a conformal metric. The metric perturbations of the model are discussed. For gravitational perturbation, we get the effective modified Pschl-Teller potential in corresponding Schrdinger equation for Kaluza-Klein (KK) modes of the graviton. There is only one bound state, which is a normalizable massless zero mode and represents a stable 4-dimensional graviton. Furthermore, there exists a mass gap between the massless mode and continuous KK modes. We also find that the model is stable under the scalar perturbation in the metric. The correction to the Newtonian potential on the brane is proportional to , where is the de Sitter parameter of the brane. This is very different from the correction caused by a volcano-like effective potential.
Cite
@article{arxiv.0911.0269,
title = {de Sitter Thick Brane Solution in Weyl Geometry},
author = {Yu-Xiao Liu and Ke Yang and Yuan Zhong},
journal= {arXiv preprint arXiv:0911.0269},
year = {2015}
}
Comments
24 pages, 13 figures, published version