Charm-loop effect in B K(*) + - and B K*γ

Abstract

We calculate the long-distance effect generated by the four-quark operators with c-quarks in the B K(*) +- decays. At the lepton-pair invariant masses far below the cc-threshold, q2 4mc2, we use OPE near the light-cone. The nonfactorizable soft-gluon emission from c-quarks is cast in the form of a nonlocal effective operator. The B K(*) matrix elements of this operator are calculated from the QCD light-cone sum rules with the B-meson distribution amplitudes. As a byproduct, we also predict the charm-loop contribution to B K*γ beyond the local-operator approximation. To describe the charm-loop effect at large q2, we employ the hadronic dispersion relation with =J/, (2S), ... contributions, where the measured B K(*) amplitudes are used as inputs. Matching this relation to the result of QCD calculation reveals a destructive interference between the J/ and (2S) contributions. The resulting charm-loop effect is represented as a q2-dependent correction C9(q2) to the Wilson coefficient C9. Within uncertainties of our calculation, at q2 below the charmonium region the predicted ratio C9(q2)/C9 is ≤ 5% for B K +-, but can reach as much as 20% for B K*+-, the difference being mainly caused by the soft-gluon contribution.