Implications of a 125 GeV Higgs scalar for LHC SUSY and neutralino dark matter searches

Abstract

The ATLAS and CMS collaborations have reported an excess of events in the γγ, ZZ* 4 and WW* search channels at an invariant mass m 125 GeV, which could be the first evidence for the long-awaited Higgs boson. We investigate the consequences of requiring mh 125 GeV in both the mSUGRA and NUHM2 SUSY models. In mSUGRA, large values of trilinear soft breaking parameter |A0| are required, and universal scalar m0 0.8 TeV is favored so that we expect squark and slepton masses typically in the multi-TeV range. This typically gives rise to an "effective SUSY" type of sparticle mass spectrum. In this case, we expect gluino pair production as the dominant sparticle creation reaction at LHC. For m0< 5 TeV, the superpotential parameter μ > 2 TeV and mA> 0.8 TeV, greatly restricting neutralino annihilation mechanisms. These latter conclusions are softened if m0 10-20 TeV or if one proceeds to the NUHM2 model. The standard neutralino abundance tends to be far above WMAP-measured values unless the neutralino is higgsino-like. We remark upon possible non-standard (but perhaps more attractive) cosmological scenarios which can bring the predicted dark matter abundance into accord with the measured value, and discuss the implications for direct and indirect detection of neutralino cold dark matter.