Gluino-SUGRA scenarios in light of FNAL muon g-2 anomaly
Abstract
Gluino-SUGRA (gSUGRA), which is an economical extension of the predictive mSUGRA, adopts much heavier gluino mass parameter than other gauginos mass parameters and universal scalar mass parameter at the unification scale. It can elegantly reconcile the experimental results on the Higgs boson mass, the muon g-2, the null results in search for supersymmetry at the LHC and the results from B-physics. In this work, we propose several new ways to generate large gaugino hierarchy (i.e. M3 M1,M2) for gSUGRA model building and then discuss in detail the implications of the new muon g-2 results with the updated LHC constraints on such gSUGRA scenarios. We obtain the following observations: (i) For the most interesting M1=M2 case at the GUT scale with a viable bino-like dark matter, the gSUGRA can explain the muon g-2 anomaly at 1σ level and be consistent with the updated LHC constraints for 6≤ M3/M1 ≤ 9 at the GUT scale; (ii) For M1:M2=5:1 at the GUT scale with wino-like dark matter, the gSUGRA model can explain the muon g-2 anomaly at 2σ level and be consistent with the updated LHC constraints for 3≤ M3/M1 ≤ 3.2 at the GUT scale; (iii) For M1:M2=3:2 at the GUT scale with mixed bino-wino dark matter, the gSUGRA model can explain the muon g-2 anomaly at 1σ level and be consistent with the updated LHC constraints for 6.9≤ M3/M1 ≤ 7.5 at the GUT scale. Although the choice of heavy gluino will always increase the FT involved, some of the 1σ/2σ survived points of aμcombine can still allow low EWFT of order several hundreds and be fairly natural. Constraints from (dimension-five operator induced) proton decay are also discussed.
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