Renormalisation group evolution of the shape function g17 in B Xs γ and B Xs +- at subleading power

Abstract

We derive and solve the renormalisation-group (RG) equation of the shape function g17(ω,ω1;μ), which appears at subleading power in the factorization of the inclusive decays B Xs γ and B Xs +-. Our results provide the first ingredient for a next-to-leading order analysis of the respective resolved-photon Qc1 - Q7γ interference contribution, whose current uncertainties are among the largest ones in both inclusive penguin modes. As a by-product of our study, we find that the analytic properties of the soft anomalous dimension as well as the jet functions in a factorization theorem allow for a simplified renormalisation of operators in Heavy-Quark Effective Theory that are composed of fields smeared along distinct light-cone directions. Their hadronic matrix elements become relevant in various inclusive and exclusive B-decays beyond leading power in the heavy-quark and large-energy expansion. Using these insights, we derive and solve a simpler ``reduced'' RG equation of an amplitude-level soft function that describes the long-distance QCD dynamics for penguin contributions to exclusive Bd,s γ γ decays, and which has recently been discussed in the literature.

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