Litcius/Paper detail

Renormalization and scale evolution of the soft-quark soft function

Ze Long Liu, Bianka Mecaj, Matthias Neubert, Xing Wang, Sean Fleming

2020Journal of High Energy Physics32 citationsDOIOpen Access PDF

Abstract

A bstract Soft functions defined in terms of matrix elements of soft fields dressed by Wilson lines are central components of factorization theorems for cross sections and decay rates in collider and heavy-quark physics. While in many cases the relevant soft functions are defined in terms of gluon operators, at subleading order in power counting soft functions containing quark fields appear. We present a detailed discussion of the properties of the soft-quark soft function consisting of a quark propagator dressed by two finite-length Wilson lines connecting at one point. This function enters in the factorization theorem for the Higgs-boson decay amplitude of the h → γγ process mediated by light-quark loops. We perform the renormalization of this soft function at one-loop order, present a conjecture for its two-loop anomalous dimension and discuss solutions to its renormalization-group evolution equation in momentum space, in Laplace space and in the “diagonal space”, where the evolution is strictly local in the momentum variable.

Topics & Concepts

PhysicsFactorizationPropagatorWeierstrass factorization theoremRenormalizationResummationQuarkGluonMathematical physicsParticle physicsQuantum electrodynamicsDimension (graph theory)Momentum (technical analysis)Function (biology)ScalingRenormalization groupDrell–Yan processPosition and momentum spaceSoft photonSingularityQuantum chromodynamicsAmplitudeDimensional regularizationOrder (exchange)Space (punctuation)Beta function (physics)Correlation function (quantum field theory)Matrix (chemical analysis)Particle physics theoretical and experimental studiesQuantum Chromodynamics and Particle InteractionsHigh-Energy Particle Collisions Research