Nonlocal form factor of chromomagnetic penguin in B K+- from QCD light-cone sum rules

Abstract

The branching fraction of the B K+- decay has been measured recently by the LHC experiments, showing a deviation from theory predictions based on the Standard Model (SM). A major challenge in achieving a complete SM prediction and interpreting this discrepancy lies in the treatment of nonlocal hadronic effects. In B K+-, these effects are cast in a single nonlocal form factor, a function of squared momentum transfer q2 to the lepton pair. One of the previously used methods provides this form factor in the region of spacelike momentum transfer, q2<0, matching the result to the hadronic dispersion relation, which is then continued to the physical region. The calculation done so far was a combination of QCD factorisation for hard-gluon contributions with light-cone sum rules (LCSRs) for soft-gluon ones. In this work, we calculate for the first time the complete nonlocal form factor at q2<0 for one of the effective operators, the chromomagnetic operator O8g, applying the method of LCSRs with B-meson distribution amplitudes. We compute, both analytically and numerically, the operator-product expansion (OPE) diagrams with hard-gluon exchanges, analyse their structure and hierarchy, and obtain their spectral density entering the LCSR together with soft-gluon contributions. This study paves the way for our next task, a complete calculation of nonlocal B K+- form factor at spacelike q2, including the dominant contributions of current-current operators, known as charm-loops.

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