We apply the leading-log high-energy resummation technique recently derived by some of us to the transverse momentum distribution for production of a Higgs boson in gluon fusion. We use our results to obtain information on mass-dependent corrections to this observable, which is only known at leading order when exact mass dependence is included. In the low pT region we discuss the all-order exponentiation of collinear bottom mass logarithms. In the high pT region we show that the infinite top mass approximation loses accuracy as a power of pT, while the accuracy of the high-energy approximation is approximately constant as pT grows. We argue that a good approximation to the NLO result for pT ≳ 200 GeV can be obtained by combining the full LO result with a K-factor computed using the high-energy approximation.
The Higgs transverse momentum spectrum with finite quark masses beyond leading order / F. Caola, S. Forte, S. Marzani, C. Muselli, G. Vita. - In: JOURNAL OF HIGH ENERGY PHYSICS. - ISSN 1029-8479. - 2016:8(2016). [10.1007/JHEP08(2016)150]
The Higgs transverse momentum spectrum with finite quark masses beyond leading order
S. Forte
;C. MuselliPenultimo
;
2016
Abstract
We apply the leading-log high-energy resummation technique recently derived by some of us to the transverse momentum distribution for production of a Higgs boson in gluon fusion. We use our results to obtain information on mass-dependent corrections to this observable, which is only known at leading order when exact mass dependence is included. In the low pT region we discuss the all-order exponentiation of collinear bottom mass logarithms. In the high pT region we show that the infinite top mass approximation loses accuracy as a power of pT, while the accuracy of the high-energy approximation is approximately constant as pT grows. We argue that a good approximation to the NLO result for pT ≳ 200 GeV can be obtained by combining the full LO result with a K-factor computed using the high-energy approximation.File | Dimensione | Formato | |
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