Differential Cross Section for Higgs Boson Production Including All-Orders Soft Gluon Resummation
Abstract
The transverse momentum QT distribution is computed for inclusive Higgs boson production at the energy of the CERN Large Hadron Collider. We focus on the dominant gluon-gluon subprocess in perturbative quantum chromodynamics and incorporate contributions from the quark-gluon and quark-antiquark channels. Using an impact-parameter b-space formalism, we include all-orders resummation of large logarithms associated with emission of soft gluons. Our resummed results merge smoothly at large QT with the fixed-order expectations in perturbative quantum chromodynamics, as they should, with no need for a matching procedure. They show a high degree of stability with respect to variation of parameters associated with the non-perturbative input at low QT. We provide distributions dσ/dy dQT for Higgs boson masses from MZ to 200 GeV. The average transverse momentum at zero rapidity y grows approximately linearly with mass of the Higgs boson over the range MZ < mh <200 GeV, <QT> 0.18 mh + 18 ~GeV. We provide analogous results for Z boson production, for which we compute <QT> 25 GeV. The harder transverse momentum distribution for the Higgs boson arises because there is more soft gluon radiation in Higgs boson production than in Z production.
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