B0 K 0μ+μ- Decay in the Aligned Two-Higgs-Doublet Model

Abstract

In the aligned two-Higgs-doublet model, we perform a complete one-loop computation of the short-distance Wilson coefficients C7,9,10(), which are the most relevant ones for b s+- transitions. It is found that, when the model parameter |u| is much smaller than |d|, the charged-scalar contributes mainly to chirality-flipped C9,10, with the corresponding effects being proportional to |d|2. Numerically, the charged-scalar effects fit into two categories: (A) C7,9,10H are sizable, but C9,10^0, corresponding to the (large |u|, small |d|) region; (B) C7H and C9,10^ are sizable, but C9,10H0, corresponding to the (small |u|, large |d|) region. Taking into account phenomenological constraints from the inclusive radiative decay B Xsγ, as well as the latest model-independent global analysis of b s+- data, we obtain the much restricted parameter space of the model. We then study the impact of the allowed model parameters on the angular observables P2 and P5' of B0 K 0μ+μ- decay, and find that P5' could be increased significantly to be consistent with the experimental data in case B.