Post-LHC7 fine-tuning in the mSUGRA/CMSSM model with a 125 GeV Higgs boson

Abstract

The recent discovery of a 125 GeV Higgs-like resonance at LHC, coupled with the lack of evidence for weak scale supersymmetry (SUSY), have severely constrained SUSY models such as mSUGRA/CMSSM. As LHC probes deeper into SUSY model parameter space, the little hierarchy problem -- how to reconcile the Z and Higgs boson mass scale with the scale of SUSY breaking -- will become increasingly exacerbated unless a sparticle signal is found. We evaluate two different measures of fine-tuning in the mSUGRA/CMSSM model. The more stringent of these, HS, includes effects that arise from the high scale origin of the mSUGRA parameters while the second measure, EW, is determined only by weak scale parameters: hence, it is universal to any model with the same particle spectrum and couplings. Our results incorporate the latest constraints from LHC7 sparticle searches, LHCb limits from Bs ->μ+μ- and also require a light Higgs scalar with mh ~123-127 GeV. We present fine-tuning contours in the m0 vs. m1/2 plane for several sets of A0 and tan(β) values. We also present results for HS and EW from a scan over the entire viable model parameter space. We find a HS > 103, or at best 0.1% fine-tuning. For the less stringent electroweak fine tuning, we find EW > 102, or at best 1% fine-tuning. Two benchmark points are presented that have the lowest values of HS and EW. Our results provide a quantitative measure for ascertaining whether or not the remaining mSUGRA/CMSSM model parameter space is excessively fine-tuned, and so could provide impetus for considering alternative SUSY models.