Neutral triple electroweak gauge boson production in the large extra-dimension model at the LHC

TL;DR

This paper investigates the potential to detect large extra dimensions at the LHC by analyzing neutral triple gauge boson production processes, which involve graviton exchanges and could reveal new physics beyond the Standard Model.

Contribution

It provides a detailed analysis of neutral triple gauge boson production as a probe for large extra dimensions at the LHC, including kinematic distributions at 14 TeV.

Findings

Enhanced production rates suggest possible signals of extra dimensions.

Distinctive kinematic signatures could help differentiate from Standard Model backgrounds.

Results guide future experimental searches for extra-dimensional physics.

Abstract

We study the prospects of probing large extra dimension model at the LHC through neutral triple gauge boson production processes. In theories with extra dimensions these processes result from the exchange of a tower of massive graviton modes between the SM particles. We consider \gamma\gamma\gamma, \gamma \gamma Z, \gamma Z Z and ZZZ production processes, and present our results for various kinematic distributions at the LHC for \sqrt{S}=14 TeV.