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TMF, 1980, Volume 42, Number 2, Pages 147–166 (Mi tmf2273)  

This article is cited in 19 scientific papers (total in 19 papers)

Asymptotic behavior of the pion form factor in quantum chromodynamics

A. V. Efremov, A. V. Radyushkin

Abstract: In the framework of the renormalizable quantum field theory a new approach is developed to the investigation of asymptotical behaviour of two-particle bound state electromagnetic form factor. It is shown that the behaviour of the pion electromagnetic form factor in quantum chromodynamics at sufficiently large momentum transfers is controlled by the short-distance dynamics only. The formula is obtained which expresses the asymptotical behaviour of the pion form factor in terms of the fundamental constants of the theory.

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English version:
Theoretical and Mathematical Physics, 1980, 42:2, 97–110

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Received: 10.11.1978

Citation: A. V. Efremov, A. V. Radyushkin, “Asymptotic behavior of the pion form factor in quantum chromodynamics”, TMF, 42:2 (1980), 147–166; Theoret. and Math. Phys., 42:2 (1980), 97–110

Citation in format AMSBIB
\by A.~V.~Efremov, A.~V.~Radyushkin
\paper Asymptotic behavior of~the pion form factor in~quantum chromodynamics
\jour TMF
\yr 1980
\vol 42
\issue 2
\pages 147--166
\jour Theoret. and Math. Phys.
\yr 1980
\vol 42
\issue 2
\pages 97--110

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    This publication is cited in the following articles:
    1. A. V. Efremov, A. V. Radyushkin, “Field theory approach to processes with large momentum transfer. III. Gauge theories”, Theoret. and Math. Phys., 44:3 (1980), 774–784  mathnet  crossref  isi
    2. V. I. Savrin, N. B. Skachkov, “Meson annihilation form factor and relativistic wave function for bound states”, Theoret. and Math. Phys., 54:3 (1983), 242–248  mathnet  crossref  isi
    3. S. V. Mikhailov, A. V. Radyushkin, “Evolution of the pion wave function in the scalar $\varphi^3_{(6)}$ model: Two-loop calculation”, Theoret. and Math. Phys., 65:1 (1985), 999–1009  mathnet  crossref  mathscinet  isi
    4. Bakulev, AP, “Form factors and QCD in spacelike and timelike regions”, Physical Review D, 6211:11 (2000), 113001
    5. Bakulev A.P., Radyushkin A.V., Stefanis N.G., “Form factors and QCD in spacelike and timelike regions”, Physical Review D, 62:11 (2000), 113001  crossref  isi
    6. Bakulev, AP, “Pion form factor in QCD: From nonlocal condensates to next-to-leading-order analytic perturbation theory”, Physical Review D, 70:3 (2004), 033014  crossref  isi
    7. Bakulev, AP, “Analyticity properties of three-point functions in QCD beyond leading order”, Physical Review D, 72:7 (2005), 074015  crossref  isi
    8. Stefanis, NG, “Pion form factor analysis using NLO analytic perturbation theory”, Nuclear Physics B-Proceedings Supplements, 152 (2006), 245  crossref  isi
    9. Bakulev, AP, “QCD sum rules with nonlocal condensates and the spacelike pion form factor”, Physical Review D, 79:9 (2009), 093010  crossref  adsnasa  isi
    10. Krutov, AF, “Nonperturbative relativistic approach to pion form factors: Predictions for future JLab experiments”, Physical Review C, 80:5 (2009), 055210  crossref  isi
    11. Bakulev, AP, “Global Fractional Analytic Perturbation Theory in QCD with Selected Applications”, Physics of Particles and Nuclei, 40:5 (2009), 715  crossref  isi
    12. Raha, U, “Electromagnetic pion and kaon form factors in light-cone resummed perturbative QCD”, Physical Review D, 79:3 (2009), 034015  crossref  isi
    13. Bakulev, AP, “PION FORM FACTOR IN QCD SUM RULES WITH NONLOCAL CONDENSATES AND IN THE LOCAL-DUALITY APPROACH”, Modern Physics Letters A, 24:35–37 (2009), 2848  isi
    14. JETP Letters, 90:4 (2009), 228–231  mathnet  crossref  isi
    15. JETP Letters, 92:10 (2010), 707–719  mathnet  crossref  isi
    16. A. Ali, C. Hambrock, A. Ya. Parkhomenko, “Light-cone wave functions of heavy baryons”, Theoret. and Math. Phys., 170:1 (2012), 2–16  mathnet  crossref  crossref  mathscinet  adsnasa  isi
    17. Ali A. Hambrock C. Parkhomenko A.Ya. Wang W., “Light-Cone Distribution Amplitudes of the Ground State Bottom Baryons in Hqet”, Eur. Phys. J. C, 73:2 (2013), 2302  crossref  isi
    18. Brambilla N., Eidelman S., Foka P., Gardner S., Kronfeld A.S., Alford M.G., Alkofer R., Butenschoen M., Cohen T.D., Erdmenger J., Fabbietti L., Faber M., Goity J.L., Ketzer B., Lin H.W., Llanes-Estrada F.J., Meyer H.B., Pakhlov P., Pallante E., Polikarpov M.I., Sazdjian H., Schmitt A., Snow W.M., Vairo A., Vogt R., Vuorinen A., Wittig H., Arnold P., Christakoglou P., Di Nezza P., Fodor Z., Garcia i Tormo X., Hoellwieser R., Janik M.A., Kalweit A., Keane D., Kiritsis E., Mischke A., Mizuk R., Odyniec G., Papadodimas K., Pich A., Pittau R., Qiu J.-W., Ricciardi G., Salgado C.A., Schwenzer K., Stefanis N.G., von Hippel G.M., Zakharov V.I., “QCD and Strongly Coupled Gauge Theories: Challenges and Perspectives”, Eur. Phys. J. C, 74:10 (2014), 2981  crossref  isi
    19. Ayala C., Mikhailov S.V., Stefanis N.G., “Calculation of the Pion-Photon Transition Form Factor Using Dispersion Relations and Renormalization-Group Summation”, Phys. Rev. D, 98:9 (2018), 096017  crossref  isi  scopus
  • Теоретическая и математическая физика Theoretical and Mathematical Physics
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