Abstract

The supersymmetric (SUSY) minimal SO(10) model is a well-motivated grand unified theory, where the Standard Model (SM) fermions have Yukawa couplings with only one 10-plet and one 126‾-plet Higgs fields and it is highly non-trivial if the realistic quark and lepton mass matrices can be reproduced in this context. It has been known that the best fit for all the SM fermion mass matrices is achieved by a vacuum expectation value of the 126‾-plet Higgs field being at the intermediate scale of around O(1013) GeV. Under the presence of the SO(10) symmetry breaking at the intermediate scale, the successful SM gauge coupling unification is at risk and likely to be spoiled. Recently, it has been shown that the low-energy fermion mass matrices, except for the down-quark mass predicted to be too low, are very well-fitted without the intermediate scale. In order to resolve the too-low down quark mass while keeping the other fittings intact, we consider SUSY threshold corrections to reproduce the right down quark mass. It turns out that this requires flavor-dependent soft parameters. Motivated by this fact, we calculate particle mass spectra at low energies with flavor-dependent sfermion masses at the grand unification scale. We present a benchmark particle mass spectrum which satisfies a variety of phenomenological constraints, in particular, the observed SM-like Higgs boson mass of around 125 GeV and the relic abundance of the neutralino dark matter as well as the experimental result of the muon anomalous magnetic moment. In the resultant mass spectrum, sleptons in the first and second generations, bino and winos are all light, and this scenario can be tested at the LHC Run-2 in the near future.

Highlights

  • The supersymmetric (SUSY) extension of the Standard Model (SM) is one of the most promising candidates for new physics beyond the SM, the results of the search for SUSY particles at the Large Hadron Collider (LHC) [1] has been increasing tensions to the minimal SUSY SM (MSSM)

  • It has been known that the best fit for all the SM fermion mass matrices is achieved by a 126-plet Higgs field vacuum expectation value (VEV) being at the intermediate scale of around O(1013) GeV

  • In the minimal SO(10) model with a renormalizable Higgs sector, many exotic states emerge in association with the intermediate-scale SO(10) breaking, so that the success of the SM gauge coupling unification is spoiled

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Summary

Introduction

The supersymmetric (SUSY) extension of the Standard Model (SM) is one of the most promising candidates for new physics beyond the SM, the results of the search for SUSY particles at the Large Hadron Collider (LHC) [1] has been increasing tensions to the minimal SUSY SM (MSSM). There has been a very serious tension to the model, namely, in order to fit all the fermion mass matrix data at low energies the 126-plet Higgs field needs to develop a vacuum expectation value (VEV) at the intermediate scale of around 1013 GeV [9, 10]. This indicates that many exotic states appear at the intermediate scale, so that the success of the SM gauge coupling unification at the GUT scale is spoiled.

Sparticle mass spectroscopy and current experiments
Conclusions

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