Next-to-Next-to-Leading-Order QCD Corrections to the Hadronic Width of Pseudoscalar Quarkonium

Feng, Feng; Jia, Yu; Sang, Wen-Long

doi:10.1103/physrevlett.119.252001

Cited by 38 publications

(71 citation statements)

References 64 publications

(84 reference statements)

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“…In recent years, at the NNLO level many calculations are performed for quarkonium production and decays [16][17][18]. It is interesting to note that in recently, the NNLO corrections to γγ * → η c (η b ) transition form factor and η c (η b ) → light hardrons were calculated numerically [19,20]. Numerical calculation is an unique and promising way for higher order radiative corrections, nevertheless right now it experiences the shortage of proper numerical packages, especially for the kinematics in physical region.…”

Section: Jhep01(2018)091mentioning

confidence: 99%

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NNLO QCD corrections to γ + η c (η b ) exclusive production in electron-positron collision

Chen

Liang

Qiao

2018

J. High Energ. Phys.

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Based on the NRQCD factorization formalism, we calculate the next-to-nextto-leading order QCD corrections to the heavy quarkonium η c (η b ) production associated with a photon at electron-positron colliders. By matching the amplitudes calculated in full QCD theory to a series of operators in NRQCD, the short-distance coefficients up to NNLO QCD radiative corrections are determined. It turns out that the full set of master integrals that we obtained could be analytically expressed in terms of Goncharov Polylogarithms, integrals over polylogarithms and complete elliptic integrals, which mostly do not exist in the literature and could be employed in the analyses of other physical processes. In phenomenology, numerical calculations of NNLO K-factors and cross sections of e + e − → γ + η c (η b ) processes in BESIII and B-factory experiments are performed, which may stand as a test of the NRQCD higher order calculation while confronting to the data.

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Section: Jhep01(2018)091mentioning

confidence: 99%

“…The bottom quark mass first takes the value in MS scheme, i.e. m b (m b ) = 4.18 GeV in PDG [39], and then converts to the 2-loop pole mass m b = 4.78 GeV [19,20]. In order to evaluate the bottom-quark-mass dependence of the final result, in our numerical calculation the bottom quark mass varies from 4.7 to 4.8 GeV.…”

Section: Jhep01(2018)091mentioning

confidence: 99%

NNLO QCD corrections to γ + η c (η b ) exclusive production in electron-positron collision

Chen

Liang

Qiao

2018

J. High Energ. Phys.

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“…[9,10], and the corrections at next-to-next-to-leading order (NNLO) in α s have been calculated recently in Ref. [11]. The SDC 2 Im[g 1 ( 1 S 0 )/m 4 ] at LO in α s has been computed in Ref.…”

Section: Resummation Of Vacuum-polarization Bubble Chains In Rmentioning

confidence: 99%

“…We can combine our results for R Resum with fixed-order calculations of R, so that the corrections at NLO and NNLO in α s are valid beyond the large n f limit. By using the expressions for Γ η Q and Γ η Q →γγ valid to NNLO in α s , we obtain [11,15,16]…”

Section: Computation In Perturbative Nrqcdmentioning

confidence: 99%

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Inclusive decays of ηc and ηb at NNLO with large nf
Brambilla
¹
,
Chung
²
,
Komijani
³

2018
Phys. Rev. D
10
0
14
0
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Based on the nonrelativistic QCD factorization theorem, we resum QCD corrections to the inclusive decay rate of η c and η b in the large-n f limit using bubble chain resummation. By employing dimensional regularization, we show explicitly the cancellation of the infrared renormalon ambiguity in the factorization formula at leading order in v in the large-n f limit, where v is the typical heavy quark velocity inside the meson. We also make predictions of the ratio of the inclusive decay rate to the decay rate into two photons. By comparing our results with a fixed-order calculation we conclude that resummation of QCD corrections is crucial in making an unambiguous prediction. We also find significant corrections beyond the large-n f limit for the decay of η c , which may imply that QCD corrections need to be resummed beyond the large-n f limit to make an accurate prediction of the decay rate.

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Two-loop form factors for pseudo-scalar quarkonium production and decay

Abreu

Becchetti

Duhr³

et al. 2023

J. High Energ. Phys.

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We present the analytic expressions for the two-loop form factors for the production or decay of pseudo-scalar quarkonia, in a scheme where the quarks are produced at threshold. We consider the two-loop amplitude for the process $$ \gamma \gamma \leftrightarrow {}^1{S}_0^{\left[1\right]} $$ γγ ↔ S 0 1 1 , that was previously known only numerically, as well as for the processes $$ gg\leftrightarrow {}^1{S}_0^{\left[1\right]} $$ gg ↔ S 0 1 1 , $$ \gamma g\leftrightarrow {}^1{S}_0^{\left[8\right]} $$ γg ↔ S 0 8 1 and $$ gg\leftrightarrow {}^1{S}_0^{\left[8\right]} $$ gg ↔ S 0 8 1 , which have not been computed before. The two-loop corrections to $$ gg\leftrightarrow {}^1{S}_0^{\left[1\right]} $$ gg ↔ S 0 1 1 are the last missing ingredients for a full NNLO calculation of ηQ hadro-production. We discuss how the singularity structure of the amplitudes is affected by the threshold kinematics, which in particular introduces Coulomb singularities. In this context, we first show how the usual structure of the infrared singularities degenerates at threshold kinematics, and then extract the anomalous dimensions governing the Coulomb singularities for colour-singlet and octet channels, the latter being presented here for the first time. We give high-precision numerical results for the hard functions, which can be used for phenomenological studies of ηQ production and decay at NNLO.

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Next-to-Next-to-Leading-Order QCD Corrections to the Hadronic Width of Pseudoscalar Quarkonium

Cited by 38 publications

References 64 publications

NNLO QCD corrections to γ + η c (η b ) exclusive production in electron-positron collision

NNLO QCD corrections to γ + η c (η b ) exclusive production in electron-positron collision

Inclusive decays of ηc and ηb at NNLO with large nf
Brambilla
¹
,
Chung
²
,
Komijani
³

2018
Phys. Rev. D
10
0
14
0
View full text Add to dashboard Cite

Two-loop form factors for pseudo-scalar quarkonium production and decay

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Next-to-Next-to-Leading-Order QCD Corrections to the Hadronic Width of Pseudoscalar Quarkonium

Cited by 38 publications

References 64 publications

NNLO QCD corrections to γ + η c (η b ) exclusive production in electron-positron collision

NNLO QCD corrections to γ + η c (η b ) exclusive production in electron-positron collision

Inclusive decays of ηc and ηb at NNLO with large nfBrambilla1, Chung2, Komijani3 2018Phys. Rev. D100140View full textAdd to dashboardCite

Two-loop form factors for pseudo-scalar quarkonium production and decay

Contact Info

Product

Resources

About

Inclusive decays of ηc and ηb at NNLO with large nf
Brambilla
¹
,
Chung
²
,
Komijani
³

2018
Phys. Rev. D
10
0
14
0
View full text Add to dashboard Cite