Higgs Boson Search Sensitivity in the H WW Dilepton Decay Mode at s = 7 and 10 TeV

Abstract

Prospects for discovery of the standard model Higgs boson are examined at center of mass energies of 7 and 10 TeV at the CERN Large Hadron Collider. We perform a simulation of the signal and principal backgrounds for Higgs boson production and decay in the W+ W- dilepton mode, finding good agreement with the ATLAS and CMS collaboration estimates of signal significance at 14 TeV for Higgs boson masses near mH = 160~GeV. At the lower energy of 7~TeV, using the same analysis cuts as these collaborations, we compute expected signal sensitivities of about 2 standard deviations (σ's) at mH = 160~GeV in the ATLAS case, and about 3.6~σ in the CMS case for 1~fb-1 of integrated luminosity. Integrated luminosities of 8~fb-1 and 3~fb-1 are needed in the ATLAS case at 7 and 10~TeV, respectively, for 5~σ level discovery. In the CMS case, the numbers are 2~fb-1 and 1~fb-1 at 7 and 10~TeV. Our different stated expectations for the two experiments arise from the more restrictive analysis cuts in the CMS case. Recast as exclusion limits, our results show that with 1~ fb-1 of integrated luminosity at 7~TeV, the LHC may be able to exclude mH values in the range 160 to 180~GeV provided no signal is seen.