A Three three-brane Universe:New Phenomenology for the New Millennium?

TL;DR

This paper extends the Randall-Sundrum model to include three branes, revealing unique phenomenological features such as a lighter, strongly coupled KK state, and explores implications for gravity and experimental bounds.

Contribution

It introduces a three-brane extension of the Randall-Sundrum model with novel phenomenological predictions and explores scenarios beyond hierarchy problem solutions.

Findings

Identification of an anomalously light KK state with strong matter coupling

Experimental bounds on model parameters from collider and Cavendish experiments

Potential modifications of gravity at small and large scales

Abstract

We consider an extension of the Randall-Sundrum model with three parallel 3-branes in a 5-dimensional spacetime. This new construction, apart from providing a solution to the Planck hierarchy problem, has the advantage that the SM fields are confined on a positive tension brane. The study of the phenomenology of this model reveals an anomalous first KK state which is generally much lighter than the remaining tower and also much more strongly coupled to matter. Bounds on the parameter space of the model can be placed by comparison of specific processes with the SM background as well as by the latest Cavendish experiments. The model suggests a further exotic possibility if one drops the requirement of solving the hierarchy problem. In this case gravity may result from the exchange of the ordinary graviton plus an ultralight KK state and modifications of gravity may occur at both small and extremely large scales.