M. Rogal scite author profile

We use dimensional regularization to calculate the O" 2 expansion of all scalar one-loop one-, two-, three-, and four-point integrals that are needed in the calculation of hadronic heavy quark production. The Laurent series up to O" 2 is needed as input to that part of the next-to-next-to-leading order corrections to heavy flavor production at hadron colliders where the one-loop integrals appear in the loop-by-loop contributions. The four-point integrals are the most complicated. The O" 2 expansion of the three-and four-point integrals contains in general polylogarithms up to Li 4 and functions related to multiple polylogarithms of maximal weight and depth four.

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Production of scalar and pseudo-scalar Higgs bosons to next-to-next-to-leading order at hadron colliders

Pak

Rogal

Steinhauser

2011

J. High Energ. Phys.

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We consider the production of intermediate-mass CP-even and CP-odd Higgs bosons in proton-proton and proton-anti-proton collisions. We extend the recently published results for the complete next-to-next-to-leading order calculation for a scalar Higgs boson to the pseudo-scalar case and present details of the calculation that might be useful for similar future investigations. The result is based on an expansion in the limit of a heavy top quark mass and a subsequent matching to the expression obtained in the limit of infinite energy. For a Higgs boson mass of 120 GeV the deviation from the infinite-top quark mass result is small. For 300 GeV, however, the next-to-next-to-leading order corrections for a scalar Higgs boson exceed the effective-theory result by about 9% which increases to 22% in the pseudo-scalar case. Thus in this mass range the effect on the total cross section amounts to about 2% and 6%, respectively, which may be relevant in future precision studies.

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Differences between charged-current coefficient functions

2008

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Second-and third-order results are presented for the structure functions of charged-current deepinelastic scattering in the framework of massless perturbative QCD. We write down the two-loop differences between the corresponding crossing-even and -odd coefficient functions, including those for the longitudinal structure function not covered in the literature so far. At three loops we compute the lowest five moments of these differences for all three structure functions and provide approximate expressions in Bjorken-x space. Also calculated is the related third-order coefficient-function correction to the Gottfried sum rule. We confirm the conjectured suppression of these quantities if the number of colours is large. Finally we derive the second-and third-order QCD contributions to the Paschos-Wolfenstein ratio used for the determination of the weak mixing angle from neutrino-nucleon deep-inelastic scattering. These contributions are found to be small.

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M. Rogal

Finite top quark mass effects in NNLO Higgs boson production at LHC

Virtual three-loop corrections to Higgs boson production in gluon fusion for finite top quark mass

Laurent series expansion of a class of massive scalar one-loop integrals toO(ε2)

Production of scalar and pseudo-scalar Higgs bosons to next-to-next-to-leading order at hadron colliders

Differences between charged-current coefficient functions

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