String Theory at LHC Using Jet Production From String Regge Excitations vs String Balls

TL;DR

This paper compares jet production from string Regge excitations and string balls at the LHC, finding that high transverse momentum jets and resonances could serve as signatures of TeV-scale string physics beyond the Standard Model.

Contribution

It introduces a comparative analysis of jet signatures from string Regge excitations versus string balls at 14 TeV LHC collisions, highlighting potential experimental signatures.

Findings

High p_T jet production from string Regge excitations exceeds that from string balls and QCD.

Resonances in jet cross section are unique to string Regge excitation scenario.

TeV scale high p_T jets could indicate string Regge excitations at the LHC.

Abstract

If we find extra dimensions in the second run of the LHC in the $pp$ collisions at $\sqrt{s}$ = 14 TeV, then the string mass scale $M_s$ can be $\sim$ TeV and we should produce QCD jets in $2 \rightarrow 2$ partonic collisions via string Regge excitations at the LHC. QCD jets can also be produced from string balls via thermal radiation at Hagedorn temperature. In this paper we study jet production from string Regge excitations vs string balls in $pp$ collisions at $\sqrt{s}$ = 14 TeV at LHC and make a comparison with the standard model QCD jets. We find that high $p_T$ jet production from string Regge excitations can be larger than that from string balls and from standard model QCD jets. We also find resonances in the jet production cross section in string Regge excitation scenario which is absent in the other two scenarios. Hence TeV scale high $p_T$ jets can be a good signature to study string Regge excitations in the $pp$ collisions at $\sqrt{s}$ = 14 TeV at the LHC.