Bs → Μ+μ− in a Two-Higgs-doublet Model with Flavour-Changing Up-Type Yukawa Couplings
Journal of High Energy Physics(2024)
Karlsruhe Institute of Technology (KIT)
Abstract
Abstract We present a Two-Higgs-Doublet Model in which the structure of the quark Yukawa matrices is governed by three spurions breaking the flavour symmetries of the quark Yukawa sector. The model naturally suppresses flavour-changing neutral current (FCNC) amplitudes in the down-type sector, but permits sizable FCNC couplings in the up sector. We calculate the branching ratio of Bs → μ+μ− to leading and next-to-leading order of QCD for the case with FCNC couplings of the heavy neutral Higgs bosons to up-type quarks and verify that all counterterms follow the pattern dictated by the spurion expansion of the Yukawa matrices. We find correlations between Bs → μ+μ−, b → sγ, and the Higgs masses. The $${B}_{s}-{\overline{B} }_{s}$$ mixing amplitude is naturally suppressed in the model but can probe a portion of the parameter space with very heavy Higgs bosons.
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Key words
Bottom Quarks,Multi-Higgs Models,Rare Decays,Specific BSM Phenomenology
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