Probing Supersymmetry using Event Shape variables at 8 TeV LHC

Abstract

We have revisited the prospects of Supersymmetry(SUSY) searches at the LHC with 7 TeV energy along with the prediction of the discovery potential at 8 TeV energy assuming an integrated luminosity 5 fb -1 and 20 ∈vfb with mSUGRA/CMSSM as a model framework. We discuss further optimization of our selection strategy which is based on the hadronic event shape variables. Evaluating the standard model backgrounds and signal rates in detail we predict the discovery reach in the m0 - m1/2 plane for 7 TeV with 5∈vfb luminosity. We also present the discovery reach for 8 TeV energy with an integrated luminosity 5∈vfb and 20 ∈vfb. A comparison is made between our results and the exclusion plots obtained by CMS and ATLAS. Finally, discovery reach in the gluino and squark mass plane at the 7 TeV and 8 TeV energy is also presented.