b-physics signals of the lightest CP-odd Higgs in the NMSSM at large tan beta
Abstract
We investigate the low energy phenomenology of the lighter pseudoscalar A10 in the NMSSM. The A10 mass can naturally be small due to a global U(1)R symmetry of the Higgs potential, which is only broken by trilinear soft terms. The A10 mass is further protected from renormalization group effects in the large β limit. We calculate the b s A10 amplitude at leading order in β and work out the contributions to rare K, B and radiative -decays and B - B mixing. We obtain constraints on the A10 mass and couplings and show that masses down to O(10) MeV are allowed. The b-physics phenomenology of the NMSSM differs from the MSSM in the appearance of sizeable renormalization effects from neutral Higgses to the photon and gluon dipole operators and the breakdown of the MSSM correlation between the Bs μ+ μ- branching ratio and Bs - Bs mixing. For A10 masses above the tau threshold the A10 can be searched for in b s τ+ τ- processes with branching ratios 10-3.
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