Generalized parton distributions and transverse densities in a light-front quark–diquark model for the nucleons

Mondal, Chandan; Chakrabarti, Dipankar

doi:10.1140/epjc/s10052-015-3486-6

Cited by 72 publications

(68 citation statements)

References 72 publications

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“…However, the transverse densities defined at fixed light-front time have a proper density interpretation [99,100,101]. The charge densities in the transverse impact parameter plane for the nucleon have been discussed extensively in various phenomenological models [63,64,74,102,103,104,105,106,107,108,109], whereas the densities in the transverse coordinate plane have been studied in [110,111,112]. In [113], the deuteron transverse charge density has been evaluated using different parameterizations of the charge form factor and it has been shown that the different parameterizations provide different densities in particular at the center of the impact parameter (b = 0).…”

Section: Introductionmentioning

confidence: 99%

Deuteron transverse densities in holographic QCD

2017

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Abstract. We investigate the transverse charge density in the longitudinally as well as transversely polarized deuteron using the recent empirical description of the deuteron electromagnetic form factors in the framework of holographic QCD. The predictions of the holographic QCD are compared with the results of a standard phenomenological parameterization. In addition, we evaluate GPDs and the gravitational form factors for the deuteron. The longitudinal momentum densities are also investigated in the transverse plane. PACS

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Section: Introductionmentioning

confidence: 99%

Deuteron transverse densities in holographic QCD

2017

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“…According to the standard interpretation [33,52,[65][66][67][68], in the light-cone frame with q + = q 1 + q 3 = 0, the charge and anomalous magnetization densities in the transverse plane can be interpreted with the two-dimensional Fourier transform (FT) of the Dirac and Pauli form factors. Similar to the electromagnetic densities, one can identify the gravitomagnetic density in the transverse plane by taking the FT of the gravitational form factor [41,52].…”

Section: Longitudinal Momentum Densitiesmentioning

confidence: 99%

Longitudinal momentum densities in transverse plane for nucleons

Mondal

2016

Eur. Phys. J. C

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We present a study of longitudinal momentum densities ( p + densities) in the transverse impact parameter space for u and d quarks in both unpolarized and transversely polarized nucleons by taking a two-dimensional Fourier transform of the gravitational form factors with respect to the momentum transfer in the transverse direction. The gravitational form factors are obtained by the second moments of GPDs. Here we consider the GPDs of two different soft-wall models in the AdS/QCD correspondence.

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“…The moments of the structure function and other distributions can then be evaluated as overlaps of the target hadron's light-front wavefunction (LFWF), the hadronic eigensolution of the LF Hamiltonian, as in the Drell-Yan-West formulae for hadronic form factors. [80][81][82][83] The phases of the resulting DIS amplitude and OPE matrix elements reflect the real phase of the stable target hadron's wavefunction. This approximation defines the "static" contribution 54,84 to the measured parton distribution functions (PDF), transverse momentum distributions, etc.…”

Section: Is the Momentum Sum Rule Valid For Nuclear Structurementioning

confidence: 99%

The renormalization scale problem and novel perspectives for QCD

Brodsky

2015

Int. J. Mod. Phys. Conf. Ser.

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I discuss a number of novel tests of QCD, measurements which can illuminate fundamental features of hadron physics. These include the origin of the "ridge" in proton-proton collisions; the production of the Higgs at high x F ; the role of digluon-initiated processes for quarkonium production; flavor-dependent anti-shadowing; the effect of nuclear shadowing on QCD sum rules; direct production of hadrons at high transverse momentum; and leading-twist lensing corrections; and the breakdown of perturbative QCD factorization. I also review the "Principle of Maximum Conformalit" (PMC) which systematically sets the renormalization scale order-by-order in pQCD, independent of the choice of renormalization scheme, thus eliminating an unnecessary theoretical uncertainty.

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Generalized parton distributions and transverse densities in a light-front quark–diquark model for the nucleons

Cited by 72 publications

References 72 publications

Deuteron transverse densities in holographic QCD

Deuteron transverse densities in holographic QCD

Longitudinal momentum densities in transverse plane for nucleons

The renormalization scale problem and novel perspectives for QCD

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