b c u q decay and CP violating observables in the presence of new physics contributions

Abstract

In this work, a comprehensive analysis for processes related to b cuq~(q=d, s) transitions are carried out, including new physics contributions. In light of a recent tension between branching fractions for B(s) D(s)(*)M (M represents a meson) decays in the QCD factorization approach and relevant experimental results, phenomenological constraints on complex-valued Wilson coeffients are discussed. Analyzed observables contain direct CP asymmetry (ACP) in B- D0π- decays and γ/ϕ3, one of the angles in the unitarity triangle, combined with others from τB+/τBd, ΔΓq/Γq, and A SLq~(q=d, s). We constrain the complex Wilson coefficients at 1σ and 2σ levels under color-singlet and color-rearranged scenarios. These constraints yield correlated predictions for ΔΓd/Γd, A SLd and ACP.