CP Violation and Flavour-Violating Di-Higgs Couplings in the Randall-Sundrum Model

TL;DR

This paper investigates how the Randall-Sundrum model introduces new CP violation sources via flavour-violating di-Higgs couplings, which could be tested in future collider experiments and help explain matter-antimatter asymmetry.

Contribution

It demonstrates that flavour-violating di-Higgs couplings in the RS model can produce observable CP-violating effects within experimental bounds.

Findings

CP-violating observables are within current experimental limits.

Enhanced CP violation in di-Higgs processes predicted by the model.

Potential for future collider tests of these CP-violating effects.

Abstract

The Randall-Sundrum (RS) model offers a compelling framework to address the hierarchy problem and provides new sources of CP violation beyond the Standard Model (SM). The motivation for studying CP violation in the RS model arises from the insufficiency of CP-violating phases in the SM to account for the observed matter-antimatter asymmetry in the universe. In this work, we explore CP violation through flavour-violating di-Higgs couplings, which emerge due to the localization of bulk fermions and the Higgs near the TeV brane. The analysis focuses on the role of these couplings in di-Higgs production and decay processes, leading to enhanced CP-violating effects. Numerical simulations show that the predicted CP-violating observables are within experimental bounds and could be tested in future collider experiments. The study concludes that flavour-violating di-Higgs couplings in the RS model offer a promising avenue for discovering new sources of CP violation, with significant implications for both collider physics and the understanding of the matter-antimatter asymmetry.