Charmless hadronic decays B PP, PV, VV and new physics effects in the general two-Higgs doublet models
Abstract
Based on the low-energy effective Hamiltonian with the generalized factorization, we calculate the new physics contributions to the branching ratios of the two-body charmless hadronic decays of Bu and Bd mesons induced by the new gluonic and electroweak charged-Higgs penguin diagrams in the general two-Higgs doublet models (models I, II and III). Within the considered parameter space, we find that: (a) the new physics effects from new gluonic penguin diagrams strongly dominate over those from the new γ- and Z0- penguin diagrams; (b) in models I and II, new physics contributions to most studied B meson decay channels are rather small in size: from -15% to 20%; (c) in model III, however, the new physics enhancements to the penguin-dominated decay modes can be significant, (30 -200)%, and therefore are measurable in forthcoming high precision B experiments; (d) the new physics enhancements to ratios B(B K ηp) are significant in model III, (35 -70)%, and hence provide a simple and plausible new physics interpretation for the observed unexpectedly large B K ηp decay rates; (e) the theoretical predictions for B(B K+ π) and B(B K0 π+) in model III are still consistent with the data within 2σ errors; (f) the significant new physics enhancements to the branching ratios of B K0 π0, K* η, K*+ π-, K+ φ, K*0 ω, K*+ φ and K*0 φ decays are helpful to improve the agreement between the data and the theoretical predictions; (g) the theoretical predictions of B(B PP, PV, VV) in the 2HDM's are generally consistent with experimental measurements and upper limits (90% C.L.)
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