Dynamical threshold enhancement and resummation in Drell-Yan production

Becher, Thomas; Neubert, Matthias; Xu, Gang

doi:10.1088/1126-6708/2008/07/030

Cited by 237 publications

(529 citation statements)

References 75 publications

(196 reference statements)

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“…To analytically continue the result to negative η values, or to improve convergence, it is useful to perform subtractions [30,32]. A single subtraction would use…”

Section: Subtractionsmentioning

confidence: 99%

“…For electroweak boson production at large transverse momentum, they amount to 70-80% of the NLO correction [19]. For inclusive Drell-Yan and Higgs production, also the NNLO correction is known, and it is found that a similarly large fraction of the perturbative corrections arises from the partonic threshold region [30,40].…”

Section: Scale Settingmentioning

confidence: 99%

“…In hadronic collisions, one needs a somewhat more sophisticated procedure since the scales can depend on the functional form of the non-perturbative PDFs. A method for determining these scales without any arbitrary input of what is natural and what is not was proposed in [30] and applied to direct photon and W production in [18,19]. The idea is very simple: one supplements the leading order calculation with just one part of the SCET calculation at a time, for example, the hard, jet or soft function evaluated at NLO in fixed-order perturbation theory.…”

Section: Scale Settingmentioning

confidence: 99%

“…To what extent this dynamical enhancement of the threshold is effective was analyzed in detail in [30]. There is a simple phenomenological argument why it should hold: in events with a 300 GeV gauge boson, there is almost always a jet with p T ∼ 300 GeV recoiling against it.…”

Section: Introductionmentioning

confidence: 99%

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Precision direct photon andW-boson spectra at highpTand comparison to LHC data

2012

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“…To analytically continue the result to negative η values, or to improve convergence, it is useful to perform subtractions [30,32]. A single subtraction would use…”

Section: Subtractionsmentioning

confidence: 99%

Section: Scale Settingmentioning

confidence: 99%

Section: Scale Settingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Precision direct photon andW-boson spectra at highpTand comparison to LHC data

2012

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“…Since observables at the LHC generally involve many scales, it is likely that resummation will lead to a quantitatively significant improvement of our theoretical predictions. Recent advances in Soft-Collinear Effective Theory have shown resummation to be achievable at the next-to-leading (NLL) [1,2], next-to-nextto-leading (NNLL) [3,4,5,6] and next-to-next-to-next-to-leading (N 3 LL) logarithmic order [7,8,9,10,11,12,13]. Practical results have included a precise measurement of α s from event shapes [10,11], better agreement with Tevatron data and reduced theoretical uncertainty for the the direct photon p T spectrum [5], and a bound on possible new colored states [14].…”

mentioning

confidence: 99%

One-loop matching and next-to-next-to-leading log resummation for all partonic2→2processes in QCD

Kelley

Schwartz

2011

Phys. Rev. D

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The Wilson Coefficients for all 4-parton operators which arise in matching QCD to Soft-Collinear Effective Theory (SCET) are computed at 1-loop. Any dijet observable calculated in SCET beyond leading order will require these results. The Wilson coefficients are separated by spin and color, although most applications will involve only the spin-averaged hard functions. The anomalous dimensions for the Wilson coefficients are given to 2-loop order, and the renormalization group equations are solved explicitly. This will allow for analytical resummation of dijet observables to next-to-next-to-leading logarithmic accuracy. For each channel, there is a natural basis in which the evolution is diagonal in color space. The same basis also diagonalizes the color evolution for the soft function. Even though soft functions required for SCET calculations are observable dependent, it is shown that their renormalization group evolution is almost completely determined by a universal structure. With these results, it will be possible to calculate hadronic event shapes or other dijet observables to next-to-leading order with next-tonext-to-leading log resummation.

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Introduction to Soft-Collinear Effective Theory

Becher

Broggio

Ferroglia

2015

Lecture Notes in Physics

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180

198

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These lectures provide an introduction to Soft-Collinear Effective Theory. After discussing the expansion of Feynman diagrams around the high-energy limit, the effective Lagrangian is constructed, first for a scalar theory, then for QCD. The underlying concepts are illustrated with the Sudakov form factor, i.e. the quark vector form factor at large momentum transfer. We then apply the formalism in two examples: We perform soft gluon resummation as well as transverse-momentum resummation for the Drell-Yan process using renormalization group evolution in SCET, and we derive the infrared structure of n-point gauge theory amplitudes by relating them to effective theory operators. We conclude with an overview of the different applications of the effective theory.

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Dynamical threshold enhancement and resummation in Drell-Yan production

Cited by 237 publications

References 75 publications

Precision direct photon andW-boson spectra at highpTand comparison to LHC data

Precision direct photon andW-boson spectra at highpTand comparison to LHC data

One-loop matching and next-to-next-to-leading log resummation for all partonic2→2processes in QCD

Introduction to Soft-Collinear Effective Theory

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