Role of the nonperturbative input in QCD resummed Drell-Yan QT-distributions

Abstract

We analyze the role of the nonperturbative input in the Collins, Soper, and Sterman (CSS)'s b-space QCD resummation formalism for Drell-Yan transverse momentum (QT) distributions, and investigate the predictive power of the CSS formalism. We find that the predictive power of the CSS formalism has a strong dependence on the collision energy S in addition to its well-known Q2 dependence, and the S dependence improves the predictive power at collider energies. We show that a reliable extrapolation from perturbatively resummed b-space distributions to the nonperturbative large b region is necessary to ensure the correct QT distributions. By adding power corrections to the renormalization group equations in the CSS formalism, we derive a new extrapolation formalism. We demonstrate that at collider energies, the CSS resummation formalism plus our extrapolation has an excellent predictive power for W and Z production at all transverse momenta QT Q. We also show that the b-space resummed QT distributions provide a good description of Drell-Yan data at fixed target energies.

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