Charm multiplicity and the branching ratios of inclusive charmless b quark decays in the general two-Higgs-doublet models
Abstract
In the framework of general two-Higgs-doublet models, we calculate the branching ratios of various inclusive charmless b decays by using the low energy effective Hamiltonian including next-to-leading order QCD corrections, and examine the current status and the new physics effects on the determination of the charm multiplicity nc and semileptonic branching ratio BSL. Within the considered parameter space, the enhancement to the ratio BR(b s g) due to the charged-Higgs penguins can be as large as a factor of 8 (3) in the model III (II), while the ratio BR(b no charm) can be increased from the standard model prediction of 2.49% to 4.91% (2.99%) in the model III (II). Consequently, the value of BSL and nc can be decreased simultaneously in the model III. The central value of BSL will be lowered slightly by about 0.003, but the ratio nc can be reduced significantly from the theoretical prediction of nc= 1.28 0.05 in the SM to nc= 1.23 0.05, 1.18 0.05 for mH+=200, 100 GeV, respectively. We find that the predicted nc and the measured nc now agree within roughly one standard deviation after taking into account the effects of gluonic charged Higgs penguins in the model III with a relatively light charged Higgs boson.
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