Drell-Yan qT Resummation of Fiducial Power Corrections at N3LL

Abstract

We consider Drell-Yan production pp V* X L X at small qT Q. Experimental measurements require fiducial cuts on the leptonic state L, which introduce enhanced, linear power corrections in qT/Q. We show that they can be unambiguously predicted from factorization, and resummed to the same order as the leading-power contribution. We thus obtain predictions for the fiducial qT spectrum to N3LL and next-to-leading-power in qT/Q. Matching to full NNLO (αs2), we find that the linear power corrections are indeed the dominant ones, and the remaining fixed-order corrections become almost negligible below qT 40 GeV. We also discuss the implications for more complicated observables, and provide predictions for the fiducial φ* spectrum at N3LL+NNLO. We find excellent agreement with ATLAS and CMS measurements of qT and φ*. We also consider the pT spectrum. We show that it develops leptonic power corrections in qT/(Q - 2pT), which diverge near the Jacobian peak pT Q/2 and must be kept to all powers to obtain a meaningful result there. Doing so, we obtain for the first time an analytically resummed result for the pT spectrum around the Jacobian peak at N3LL+NNLO. Our method is based on performing a complete tensor decomposition for hadronic and leptonic tensors. In practice this is equivalent to often-used recoil prescriptions, for which our results now provide rigorous, formal justification. Our tensor decomposition yields nine Lorentz-scalar hadronic structure functions, which directly map onto the commonly used angular coefficients, but also holds for arbitrary leptonic final states. In particular, for suitably defined Born-projected leptons it still yields a LO-like angular decomposition even when including QED final-state radiation. We also discuss the application to qT subtractions.