Charged current deep-inelastic scattering at three loops

Moch, S.; Rogal, M.

doi:10.1016/j.nuclphysb.2007.05.008

Cited by 26 publications

(24 citation statements)

References 48 publications

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“…For the corresponding W + −W − coefficient function c (3) 3,+ only the six lowest even-integer moments have been computed so far [52,53]. As observed below Eq.…”

Section: Resultsmentioning

confidence: 99%

Third-order QCD corrections to the charged-current structure function

2009

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We compute the coefficient function for the charge-averaged W ± -exchange structure function F 3 in deep-inelastic scattering (DIS) to the third order in massless perturbative QCD. Our new threeloop contribution to this quantity forms, at not too small values of the Bjorken variable x, the dominant part of the next-to-next-to-next-to-leading order corrections. It thus facilitates improved determinations of the strong coupling α s and of 1/Q 2 power corrections from scaling violations measured in neutrino-nucleon DIS. The expansion of F 3 in powers of α s is stable at all values of x relevant to measurements at high scales Q 2 . At small x the third-order coefficient function is dominated by diagrams with the colour structure d abc d abc not present at lower orders. At large x the coefficient function for F 3 is identical to that of F 1 up to terms vanishing for x → 1.

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“…For the corresponding W + −W − coefficient function c (3) 3,+ only the six lowest even-integer moments have been computed so far [52,53]. As observed below Eq.…”

Section: Resultsmentioning

confidence: 99%

Third-order QCD corrections to the charged-current structure function

2009

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“…The vanishing of the leading ln 6 (1−x) contributions is due to a cancellation of contributions. Below we will address the question whether this cancellation is accidental or a structural feature.…”

Section: Physical Evolution Kernel For (F 2 F φ )mentioning

confidence: 99%

“…The above (spin-averaged) splitting functions are presently known to n = 2 [1,2], i.e., the nextto-next-to-leading order (NNLO ≡ N 2 LO). The coefficient functions for the most important structure functions (including F 3 for charge-averaged W -exchange) have also been fully computed to order α 3 s [3][4][5], while the less important chargeasymmetry W -cases are available only through a couple of low-integer Mellin-N moments [6,7]. The frontier in the present massless case are now the α 4 s corrections, for which first results have been obtained at the lowest value of N [8,9].…”

Section: Introductionmentioning

confidence: 99%

On higher-order flavour-singlet splitting and coefficient functions at large x

Vogt

Soar

Moch

et al. 2010

Nuclear Physics B - Proceedings Supplements

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We discuss the large-x behaviour of the splitting functions Pqg and Pgq and of flavour-singlet coefficient functions, such as the gluon contributions C2,g and CL,g to the structure functions F2,L, in massless perturbative QCD. These quantities are suppressed by one or two powers of (1−x) with respect to the (1−x) −1 terms which are the subject of the well-known threshold exponentiation. We show that the double-logarithmic contributions to Pqg, Pgq and CL at order α 4 s can be predicted from known third-order results and present, as a first step towards a full all-order generalization, the leading-logarithmic large-x behaviour of Pqg, Pgq and C2,g at all orders in αs.

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“…. , 10 for F ν p−ν p 3 [6]. Meanwhile calculation of new results for 11'th moment for the first and 12'th moment for the latter case has been finished.…”

Section: Results For the CC Coefficient Functions And Their Applicationsmentioning

confidence: 99%

“…Meanwhile calculation of new results for 11'th moment for the first and 12'th moment for the latter case has been finished. We use scale choice µ r = µ f = Q and standard QCD colour factors C A = 3 and C F = 4/3 throughout this paper and denote the Mellin-N moments of corresponding coefficient functions as C ns a,N , a = 2, 3, L. Following the formalism outlined in [6] [7,8] (the α 3 s coefficient functions for this process are those of photon-exchange DIS, but without the contributions of the f l 11 flavour classes) and F νP+νP 3 [9] facilitate analytic continuations to these values of N. This continuation has been performed using the x-space expressions and the Mellin transformation package provided with version 3 of FORM [10]. Thus we are in a position to derive the respective moments of the hitherto unknown third-order contributions to the even-odd differences which are defined as…”

Section: Results For the CC Coefficient Functions And Their Applicationsmentioning

confidence: 99%

CC DIS at $\alpha_s^3$ in Mellin-$N$ and Bjorken-$x$ spaces

Rogal¹

2008

Proceedings of 8th International Symposium on Radiative Corrections — PoS(RAD COR 2007)

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Third-order results for the structure functions of charged-current deep-inelastic scattering are discussed. New results for 11'th Mellin moment for F ν p−ν p 2,L structure functions and 12'th moment for F ν p−ν p 3 are presented as well as corresponding higher Mellin moments of differences between the respective crossing-even and -odd coefficient functions. Approximations in Bjorken-x space for these differences obtained with lowest five moments as well as consistency of new results with these approximations are discussed. The 1/N c suppression of the differences is shown and the correction to the Paschos-Wolfenstein relation is discussed.

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Charged current deep-inelastic scattering at three loops

Cited by 26 publications

References 48 publications

Third-order QCD corrections to the charged-current structure function

Third-order QCD corrections to the charged-current structure function

On higher-order flavour-singlet splitting and coefficient functions at large x

CC DIS at $\alpha_s^3$ in Mellin-$N$ and Bjorken-$x$ spaces

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