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Refactorisation in subleading B¯→Xsγ

Tobias Hurth, Robert Szafron

2023Nuclear Physics B17 citationsDOIOpen Access PDF

Abstract

We establish refactorisation conditions between the subleading O8-O8 contributions to the inclusive B¯→Xsγ decay suffering from endpoint divergences and prove a factorisation theorem for these contributions to all orders in the strong coupling constant. This allows for higher-order calculations of the resolved contributions and consistent summation of large logarithms, consequently reducing the recently found large-scale dependence in these contributions. We implement the concept of refactorisation in a heavy flavour application of SCET, which includes nonperturbative functions as additional subtlety not present in collider applications.

Topics & Concepts

FactorizationPhysicsOrder (exchange)Particle physicsScale (ratio)AlgorithmComputer scienceQuantum mechanicsEconomicsFinanceParticle physics theoretical and experimental studiesQuantum Chromodynamics and Particle InteractionsHigh-Energy Particle Collisions Research