Early SUSY discovery at LHC without missing ET: the role of multi-leptons

Abstract

Traditional searches for SUSY at hadron colliders rely heavily on the presence of large missing transverse energy (MET) to reject background compared to signal. On the other hand, initial searches for new physics at the LHC may not be able to rely on MET due to a variety of detector calibration issues. We show that much of SUSY parameter space is accessible to discovery even without using MET, and with rather low integrated luminosities 0.1-1 fb-1. A key role is played by isolated lepton multiplicity which arises from gluino and squark cascade decays. Requiring 3 isolated leptons plus jets yields a high rate of background rejection compared to signal. We find an LHC reach in m(gluino) of about 700-750 GeV for just 0.1 fb-1 of integrated luminosity by requiring events with 4 jets plus 3 isolated leptons but without using MET. If a large enough event sample is assembled, then kinematic reconstruction of sparticle mass properties should be possible just as in the case where large MET is required. SUSY without MET can also be seen in opposite-sign/same flavor dilepton plus jets events when a characteristic invariant mass edge stands out against background.