Towards a Refined Understanding of Non-holomorphic Soft SUSY-Breaking Effects on the Higgs Boson Mass Spectra
Abstract
We study the impact of the non-holomorphic (NH) soft supersymmetry-breaking terms T33 D and μ , which introduce additional SUSY-breaking effects beyond the holomorphic structure of the superpotential, on the Higgs boson mass spectrum in the NH Minimal Supersymmetric Standard Model (NHSSM). The term T33 D modifies the scalar bottom-quark mass matrix and Higgs couplings, while μ affects the mass matrices of charginos and neutralinos. In our analysis, we incorporate constraints from charge- and color-breaking (CCB) minima where we find that a portion of the parameter space is excluded by these constraints. Focusing on the allowed parameter space, the NH contributions to the light CP-even Higgs boson mass, Mh , from μ and T33 D can reach up to 1.4 \,\, GeV and 90 \,\, MeV , respectively. For the heavy CP-even Higgs boson mass, MH , and the charged Higgs boson mass, MH , these contributions can be substantially larger in certain regions of the parameter space, reaching up to 44 \,\, GeV for MH and 42 \,\, GeV for MH due to μ , and up to 60 \,\, GeV due to T33 D for both MH and MH . These corrections are significantly larger than the expected future experimental precision for Higgs boson masses and should therefore be considered in precision analyses for future experiments.
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