A Randall-Sundrum scenario with bulk dilaton and torsion

TL;DR

This paper explores a string-inspired model with torsion and dilaton in a Randall-Sundrum scenario, showing torsion's suppression on the brane and potential TeV-scale experimental signals from dilaton-torsion interactions.

Contribution

It introduces a bulk dilaton in a Randall-Sundrum model with torsion, demonstrating exponential suppression of torsion and possible observable effects at TeV energies.

Findings

Torsion is exponentially suppressed on the visible brane.

Dilaton-torsion couplings could produce detectable signals in TeV experiments.

The model provides an explanation for the invisibility of torsion in our universe.

Abstract

We consider a string-inspired torsion-dilaton-gravity action in a Randall-Sundrum brane world scenario and show that, in an effective four-dimensional theory on the visible brane, the rank-2 antisymmetric Kalb-Ramond field (source of torsion) is exponentially suppressed. The result is similar to our earlier result in [12], where no dilaton was present in the bulk. This offers an explanation of the apparent invisibility of torsion in our space-time. However, in this case the trilinear couplings ~ Tev^{-1} between dilaton and torsion may lead to new signals in Tev scale experiments, bearing the stamp of extra warped dimensions.