The qT and φtt spectra in top-antitop hadroproduction at NNLL+NNLO: the interplay of soft-collinear resummation and Coulomb singularities
Abstract
In this paper, we present the resummation-improved differential transverse momentum and azimuthal decorrelation cross sections, dσtt/dqT and dσtt/dφtt, in top-antitop pair production at the LHC. Our calculation is based on the observation that both cross sections are dominated by topologies where the top-quark pair is well separated, expressed in their relative velocity βtt(1), at colliding energies of s=13\,TeV or higher. Therefore, the asymptotic behaviour in the limits qT0 and φtt0 can mostly be captured by the soft and collinear resummation in the HQET+SCET framework. Nevertheless, starting at NNLL, Coulomb singularities emerge in the threshold regime, βtt0, in both the hard sector and its evolution kernels, leading to unphysical results upon integration over the entire βtt range. To this end, two prescriptions, dubbed the D- and R-prescription, are introduced to regularise these Coulomb singularities. They embody two fundamentally different methods to truncate the threshold enhanced terms, rendering their contribution finite. In the absence of a combined threshold and small-transverse-momentum resummation, we present a quantitative assessment of the ambiguity introduced by the choice of prescription, itself a test of the sensitivity of our calculation to such threshold enhancements, for both the dσtt/dqT and dσtt/dφtt spectra.
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