Constraining compressed versions of MUED and MSSM using soft tracks at the LHC

Abstract

A compressed spectrum is an anticipated hideout for many beyond standard model scenarios. Such a spectrum naturally arises in the minimal universal extra dimension framework and also in supersymmetric scenarios. Low pT leptons and jets are characteristic features of such situations. Hence, a monojet with ET has been the conventional signal at the Large Hadron Collider (LHC). However, we stress that inclusion of pT-binned track observables from such soft objects provide very efficient discrimination of new physics signals against various SM backgrounds. We consider two benchmark points each for minimal universal extra dimension (MUED) and minimal supersymmetric standard model (MSSM) scenarios. We perform a detailed cut-based and multivariate analysis (MVA) to show that the new physics parameter space can be probed in the ongoing run of LHC at 13 TeV center-of-mass energy with an integrated luminosity 20-50 fb-1. When studied in conjunction with the dark matter relic density constraint assuming standard cosmology, we find that compressed MUED (with R=2) can be already excluded from the existing data. Also, MVA turns out to be a better technique than regular cut-based analysis since tracks provide uncorrelated observables which would extract more information from an event.