On the Dimensional Regularization of QCD Helicity Amplitudes With Quarks

Abstract

We study QCD helicity amplitudes with an arbitrary number of (massive) quarks, keeping unobserved (loop) particles in fixed integer Ds dimensions. We find a suitable embedding of external four-dimensional fermion states into higher dimensional spaces. This allows to identify the Ds dependence of amplitudes with external quarks at one and two loops, permitting an analytic continuation in Ds. Explicitly we focus on 't Hooft-Veltman and four-dimensional helicity schemes for which we provide a compact prescription for the computation of one- and two-loop amplitudes amenable for numerical implementation.