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Teoreticheskaya i Matematicheskaya Fizika, 2007, Volume 150, Number 1, Pages 152–176
DOI: https://doi.org/10.4213/tmf5971 (Mi tmf5971) 		 
This article is cited in 116 scientific papers (total in 116 papers)

Ten years of the analytic perturbation theory in QCD

D. V. Shirkova, I. L. Solovtsovab

a Joint Institute for Nuclear Research, Bogoliubov Laboratory of Theoretical Physics
b International Centre of Advanced Research, P. Sukhoi Gomel State Technical University
Full-text PDF (861 kB) Citations (116)
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DOI: https://doi.org/10.4213/tmf5971
Abstract: The renormalization group method allows improving the properties of the QCD perturbative power series in the ultraviolet region. But it ultimately leads to unphysical singularities of observables in the infrared domain. The analytic perturbation theory is the next step in improving the perturbative expansions. Specifically, it involves an additional analyticity requirement based on the causality principle and implemented in the Källen–Lehmann and Jost–Lehmann representations. This approach eliminates spurious singularities of the perturbative power series and enhances the stability of the series with respect to both higher-loop corrections and the choice of the renormalization scheme. This paper is an overview of the basic stages in developing the analytic perturbation theory in QCD, including its recent applications to describing hadronic processes.
Keywords: nonanalyticity in α, causality, Källen–Lehmann representation.
Received: 22.08.2006
English version:
Theoretical and Mathematical Physics, 2007, Volume 150, Issue 1, Pages 132–152
DOI: https://doi.org/10.1007/s11232-007-0010-7
Bibliographic databases:
Language: Russian
Citation: D. V. Shirkov, I. L. Solovtsov, “Ten years of the analytic perturbation theory in QCD”, TMF, 150:1 (2007), 152–176; Theoret. and Math. Phys., 150:1 (2007), 132–152
Citation in format AMSBIB
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    1. B. A. Arbuzov, I. V. Zaitsev, “Nonperturbative Solutions in the Standard Model Theories”, Phys. Part. Nuclei, 55:2 (2024), 189  crossref
    2. César Ayala, Camilo Castro-Arriaza, Gorazd Cvetič, “Renormalon-based resummation of Bjorken polarised sum rule in holomorphic QCD”, Nuclear Physics B, 1007 (2024), 116668  crossref
    3. Rocco Malaspina, Lorenzo Pierini, Olga Shekhovtsova, Simone Pacetti, “Analytical Inverse QCD Coupling Constant Approach and Its Result for αs”, Particles, 7:3 (2024), 780  crossref
    4. G. Pancheri, Y.N. Srivastava, O. Shekhovtsova, “Ansatz about a Zero Momentum Mode in QCD and the Forward Slope in pp Elastic Scattering”, Ukr. J. Phys., 69:11 (2024), 879  crossref
    5. César Ayala, Gorazd Cvetič, “Towards unifying perturbative and Holographic Light-Front QCD via holomorphic coupling”, J. High Energ. Phys., 2024:12 (2024)  crossref
    6. F. T. Brandt, J. Frenkel, D. G. C. McKeon, G. S. S. Sakoda, “On the analytically-improved running coupling in QCD”, Mod. Phys. Lett. A, 37:15 (2022)  crossref
    7. Contreras C. Cvetic G. Orellana O., “Pqcd Running Couplings Finite and Monotonic in the Infrared: When Do They Reflect the Holomorphic Properties of Spacelike Observables?”, J. Phys. Commun., 5:1 (2021), 015019  crossref  isi
    8. Cvetic G. Koegerler R., “Lattice-Motivated Qcd Coupling and Hadronic Contribution to Muon G-2”, J. Phys. G-Nucl. Part. Phys., 48:5 (2021), 055008  crossref  mathscinet  isi
    9. Mikhailov V S. Pimikov V A. Stefanis N.G., “Extending the Application of the Light-Cone Sum Rules Method to Low Momenta Using Qcd Renormalization-Group Summation: Theory and Phenomenology”, Phys. Rev. D, 103:9 (2021), 096003  crossref  mathscinet  isi
    10. Kisselev V A., Petrov V.A., “Can Effective Four-Dimensional Scalar Theory Be Asymptotically Free in a Spacetime With Extra Dimensions?”, Phys. Rev. D, 103:8 (2021), 085012  crossref  mathscinet  isi  scopus
    11. K. Yu. Todyshev, “Measuring the inclusive cross section of e+e annihilation into hadrons in the pre-asymptotic energy range”, Phys. Usp., 63:9 (2020), 929–939  mathnet  crossref  crossref  adsnasa  isi  elib
    12. Altaisky M.V., “Multiscale Gauge Invariance”, Phys. Part. Nuclei, 51:4 (2020), 521–525  crossref  isi
    13. Nesterenko A.V., “R-Ratio of E(+)E(-) -> Hadrons: Explicit Form”, Phys. Part. Nuclei, 51:4 (2020), 703–708  crossref  isi
    14. Altaisky V M., “Wavelet Regularization of Gauge Theories”, Phys. Rev. D, 101:10 (2020), 105004  crossref  mathscinet  isi
    15. Ayala C. Cvetic G. Gonzalez L., “Evaluation of Neutrinoless Double Beta Decay: Qcd Running to Sub-Gev Scales”, Phys. Rev. D, 101:9 (2020), 094003  crossref  mathscinet  isi
    16. Cvetic G., “Renormalon-Based Resummation For Qcd Observables”, Nucl. Part. Phys. Proc., 309 (2020), 87–92  crossref  isi
    17. Ayala C., Cvetic G., Kotikov V A., Shaikhatdenov B.G., Xviii Workshop on High Energy Spin Physics, Dspin-2019, Journal of Physics Conference Series, 1435, IOP Publishing Ltd, 2020  crossref  isi
    18. Cvetic G., “Renormalon-Motivated Evaluation of Qcd Observables”, Phys. Rev. D, 99:1 (2019), 014028  crossref  isi  scopus
    19. Kozhevnikova M., Oganesian A., Teryaev O., Xxiv International Baldin Seminar on High Energy Physics Problems: Relativistic Nuclear Physics and Quantum Chromodynamics (Baldin Ishepp Xxiv), Epj Web of Conferences, 204, eds. Bondarenko S., Burov V., Malakhov A., E D P Sciences, 2019  crossref  isi
    20. Nesterenko V A., “Explicit Form of the R-Ratio of Electron-Positron Annihilation Into Hadrons”, J. Phys. G-Nucl. Part. Phys., 46:11 (2019), 115006  crossref  isi
    Citing articles in Google Scholar: Russian citations, English citations
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    		Теоретическая и математическая физика Theoretical and Mathematical Physics
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