2020
DOI: 10.1103/physrevd.102.074022
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Pion light-cone distribution amplitude from the pion electromagnetic form factor

Abstract: We suggest to probe the pion light-cone distribution amplitude, applying a dispersion relation for the pion electromagnetic form factor. Instead of the standard dispersion relation, we use the equation between the spacelike form factor F π ðQ 2 Þ and the integrated modulus of the timelike form factor. For F π ðQ 2 Þ, the QCD light-cone sum rule with a dominant twist-2 term is used. Adopting for the pion twist-2 distribution amplitude a certain combination of the first few Gegenbauer polynomials, it is possible… Show more

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Cited by 33 publications
(26 citation statements)
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“…Our Model 2 is of a different origin and is based on the comparison of the LCSR for the pion electromagnetic form factor [50] with the experimental data. We use the results of the recent analysis [51], where a dispersion relation and the data in the timelike region are used to reproduce the pion form factor in the spacelike region. These results are then used to fit the LCSR form factor calculated to the twist-2 NLO accuracy including the subleading twist-4,6 terms.…”
Section: Jhep03(2021)016mentioning
confidence: 99%
See 1 more Smart Citation
“…Our Model 2 is of a different origin and is based on the comparison of the LCSR for the pion electromagnetic form factor [50] with the experimental data. We use the results of the recent analysis [51], where a dispersion relation and the data in the timelike region are used to reproduce the pion form factor in the spacelike region. These results are then used to fit the LCSR form factor calculated to the twist-2 NLO accuracy including the subleading twist-4,6 terms.…”
Section: Jhep03(2021)016mentioning
confidence: 99%
“…The simplest option is to adopt a truncated Gegenbauer expansion with a relatively large positive a 4 (1 GeV) and small a n>4 . A pion DA with such a pattern of Gegenbauer moments at µ = 1 GeV: a 2 = 0.135 ± 0.032 (the rescaled value (5.4)) and a 4 = 0.218 ± 0.059, a n>4 = 0, was used in [51] (see the second line in the table IV there) among other models fitting the LCSR for the pion electromagnetic form factor to the timelike form factor data. According to (5.2), the resulting midpoint value is ϕ π (1/2, µ = 1 GeV) = 1.81 ± 0.18.…”
Section: Jhep03(2021)016mentioning
confidence: 99%
“…, s) at s → ∞, which is a manifestation of the local quark-hadron duality. To demonstrate that the approximation (19) is valid for simpler hadronic matrix elements such as the pion electromagnetic form factor, we refer to [9], where the absolute values of the pion timelike and spacelike form factors (the former measured and the latter calculated from a dedicated LCSR) are compared. We observe that local…”
Section: Alexander Khodjamirianmentioning
confidence: 99%
“…( 22) before averaging, i.e. Φ2(M 2 ), whereas the upper thinner (blue) line denotes its upper limit [27] (see Appendix B).…”
Section: Connection Between Scalar Nlc and Pion Pdfmentioning
confidence: 99%