Capability of LHC to discover supersymmetry with s=7 TeV and 1 fb-1

Abstract

We examine the capability of the CERN Large Hadron Collider to discovery supersymmetry (SUSY) with energy s=7 TeV and integrated luminosity of about 1 fb-1. Our results are presented within the paradigm minimal supergravity model (mSUGRA or CMSSM). Using a 6-dimensional grid of cuts for optimization of signal to background-- including missing ET-- we find for m m an LHC reach of m 800,\ 950,\ 1100 and 1200 GeV for 0.1, 0.3, 1 and 2 fb-1, respectively. For m<< m, the reach is instead near m 480,\ 540,\ 620 and 700 GeV, for the same integrated luminosities. We also examine the LHC reach in the case of very low integrated luminosity where missing ET may not be viable. We focus on the multi-muon, multi-lepton (including electrons) and dijet signals. Although the LHC reach without ETmiss is considerably lower in these cases, it is still substantial: for 0.3 fb-1, the dijet reach in terms of gluino mass is up to 600 GeV for very low m0, while the dilepton reach is to gluino masses of 500 GeV over a range of m0 values.