On the role of the quark mass thresholds in extrapolations of the running αs

Chýla, J.

doi:10.1016/0370-2693(95)00384-w

Cited by 13 publications

(11 citation statements)

References 9 publications

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“…Since α V incorporates quark mass effects exactly, it avoids the problem of explicitly computing and resumming quark mass corrections which are related to the running of the coupling. Thus the effective number of flavors N F (Q/m) is an analytic function of the scale Q and the quark masses m. The effects of finite quark mass corrections on the running of the strong coupling were first considered by De Rújula and Georgi [2] within the momentum subtraction schemes (MOM) (see also [3][4][5][6]). The two-loop calculation was first done by Yoshino and Hagiwara [7] in the MOM-scheme using Landau gauge and also recently by Jegerlehner and Tarasov [8] using background field gauge.…”

Section: Introductionmentioning

confidence: 99%

The Two-Loop Scale Dependence of the Static QCD Potential including Quark Masses

Brodsky¹

1999

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The interaction potential V (Q 2 ) between static test charges can be used to define an effective charge α V (Q 2 ) and a physically-based renormalization scheme for quantum chromodynamics and other gauge theories. In this paper we use recent results for the finite-mass fermionic corrections to the heavyquark potential at two-loops to derive the next-to-leading order term for the Gell Mann-Low function of the V -scheme. The resulting effective number of flavors N F (Q 2 /m 2 ) in the α V scheme is determined as a gauge-independent and analytic function of the ratio of the momentum transfer to the quark pole mass. The results give automatic decoupling of heavy quarks and are independent of the renormalization procedure. Commensurate scale relations then provide the next-to-leading order connection between all perturbatively calculable observables to the analytic and gauge-invariant α V scheme without any scale ambiguity and a well defined number of active flavors. The inclusion of the finite quark mass effects in the running of the coupling is compared with the standard treatment of finite quark mass effects in the MS scheme.

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Section: Introductionmentioning

confidence: 99%

The Two-Loop Scale Dependence of the Static QCD Potential including Quark Masses

Brodsky¹

1999

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“…(for the recent discussion of this problem see Ref. [39]). It was mentioned in the detailed reviews of Ref.…”

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confidence: 99%

Next-to-next-to-leading order QCD analysis of the CCFR data for xF3 and F2 structure functions of the deep-inelastic neutrino-nucleon scattering

et al. 1996

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The next-to-next-to-leading order (NNLO) non-singlet QCD analysis of the experimental data of the CCFR collaboration of Ref.[1] for the xF 3 and F 2 structure functions of the deep-inelastic scattering of neutrinos and antineutrinos on the nucleon by means of the Jacobi polynomial expansion method is made. The target mass corrections are also taken into account. We demonstrate that the NNLO corrections have the important effect: they are decreasing the difference between the values of α s (M Z ), extracted from the NLO fit of xF 3 data and from the NLO non-singlet fit of the combined xF 3 and F 2 CCFR data. The obtained NNLO results for α s (M Z ) are : α s (M Z ) = 0.109 ± 0.003(stat) ± 0.005(syst) ± 0.003(theor) (from xF 3 data) and α s (M Z ) = 0.111 ± 0.002(stat) ± 0.003(syst) ± 0.003(theor) (from the combined xF 3 and F 2 data). We also estimate the values of the order O(α 2 s )-corrections to the Gottfried sum rule.

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“…The pole b-quark mass is frequently used in the MOM-scheme [46]. Within this prescription threshold effects of heavy quarks may be understood rather easily [47], [48], [49]. Moreover, the concept of the pole b-quark mass is commonly applied in considerations of deep-inelastic scattering processes [50] , and what is even more importantly for the LHC, in global fits of parton distributions [51].…”

Section: Pos(acat08)004mentioning

confidence: 99%

Higgs bbbar decay at NNLO and beyond : the uncertainties of QCD predictions

Kataev¹,

Kim²

2009

Proceedings of XII Advanced Computing and Analysis Techniques in Physics Research — PoS(ACAT08)

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The importance of detailed studies of theoretical QCD predictions for the decay width of the Standard Model Higgs boson into bottom quarks, in the case when M H ≤ 2M W , is emphasized. The effects of higher order perturbative QCD corrections up to order α 4 s -terms are considered. The resummation of the π 2 terms resulting from analytical continuation, typical of Minkowskian quantities, is undertaken for the Γ(H → bb) decay width. The uncertainties in the calculation of this decay width are analyzed.

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On the role of the quark mass thresholds in extrapolations of the running αs

Cited by 13 publications

References 9 publications

The Two-Loop Scale Dependence of the Static QCD Potential including Quark Masses

The Two-Loop Scale Dependence of the Static QCD Potential including Quark Masses

Next-to-next-to-leading order QCD analysis of the CCFR data for xF3 and F2 structure functions of the deep-inelastic neutrino-nucleon scattering

Higgs bbbar decay at NNLO and beyond : the uncertainties of QCD predictions

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