Quasi-two-body decays B+ Ds+ (R) K+K- in the perturbative QCD approach

Abstract

A search for the decay B+ Ds+ K+K- has been reported by the LHCb Collaboration using pp collision data corresponding to an integrated luminosity of 4.8\,fb-1, collected at center-of-mass energies of 7, 8, and 13~TeV, in which no amplitude analysis of the K+K- subsystem was performed. In this work, we study the resonant contributions to the decay B+ Ds+ K+K- within the perturbative QCD (PQCD) factorization framework. Contributions from the S-wave resonances f0(980), f0(1370), and f0(1500), the P-wave resonance φ(1020), and the D-wave resonances f2(1270) and f2(1525) are taken into account. By introducing the corresponding two-meson distribution amplitudes for the K+K- system, we perform a complete perturbative analysis of the quasi-two-body decays B+ Ds+(R)K+K-, where R denotes an intermediate resonance, and present the first PQCD predictions for the associated branching fractions. Using the narrow-width approximation, we further extract the branching fractions of the corresponding two-body decays B+ Ds+R. Our results are consistent with the available experimental measurements and previous theoretical studies. Finally, we find that direct CP asymmetries vanish for these quasi-two-body decays within the Standard Model, so that any experimentally observed nonzero CP asymmetry would constitute a clear signal of physics beyond the Standard Model.