Tensor-polarized structure function 
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 in the standard convolution description of the deuteron

Cosyn, Wim; Dong, Yubing; Kumano, S.; Sargsian, Misak

doi:10.1103/physrevd.95.074036

Cited by 39 publications

(36 citation statements)

References 72 publications

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“…It should be mentioned that the spin-1 particle, different from the spin-1/2 one, has the tensor structure function b 1 . It triggers great interest [58][59][60][61][62]. The sum rule of this structure function is dxb 1 (x) = 0 [58].…”

Section: Gpds For Hadrons With Spinmentioning

confidence: 99%

ρ meson unpolarized generalized parton distributions with a light-front constituent quark model

Sun

Dong

2017

Phys. Rev. D

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We study ρ meson unpolarized generalized parton distributions based on a light-front constituent quark model where the quark-antiquark-meson vertex is constructed under the symmetric loop momentum convention. The form factors and some other low-energy observables of the ρ meson are calculated. Moreover, the contributions to the form factors and generalized parton distributions from the valence and nonvalence regimes are discussed and analyzed in detail. In the forward limit, the usual structure functions are estimated as well. In addition, by evolving the moments of the obtained structure functions to the scale of the lattice calculation, we give the factorization scale of our quark model. It is found that the present phenomenological model is reasonable to describe the general properties of ρ meson.

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Section: Gpds For Hadrons With Spinmentioning

confidence: 99%

ρ meson unpolarized generalized parton distributions with a light-front constituent quark model

Sun

Dong

2017

Phys. Rev. D

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“…On the other hand, its internal structure and dynamics are the ultimate effect of the interactions between the elementary constituents, and this makes the deuteron a promising avenue towards understanding how QCD produces the force that binds nucleons together in nuclei [23]. After the first measurement by the HERMES collaboration of a tensor polarized collinear structure function of the deuteron [24], the so-called b 1 function defined in [25], it became clearer that going beyond the single-nucleon formulation is needed to describe the experimental data, especially in specific regions of the parton momentum range [26][27][28][29][30].…”

Section: Introductionmentioning

confidence: 99%

The energy-momentum tensor of spin-1 hadrons: formalism

et al. 2019

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We provide the complete decomposition of the local gauge-invariant energy-momentum tensor for spin-1 hadrons, including non-conserved terms for the individual parton flavors and antisymmetric contributions originating from intrinsic spin. We state sum rules for the gravitational form factors appearing in this decomposition and provide relations for the mass decomposition, work balance, total and orbital angular momentum, mass radius, and inertia tensor. Generalizing earlier work, we derive relations between the total and orbital angular momentum and the Mellin moments of twist-2 and 3 generalized parton distributions, accessible in hard exclusive processes with spin-1 targets. Throughout the work, we comment on the unique features in these relations originating from the spin-1 nature of the hadron, being absent in the lower spin cases. * wim.cosyn@ugent.be † sabrina.cotogno@polytechnique.edu ‡ afreese@anl.gov § cedric.lorce@polytechnique.edu 1 We call the form factors "gravitational" since the EMT is usually understood as the source of gravitational interactions. However, we do not measure in practice these form factors through gravity and we do not know the exact form that a theory of quantum gravity will take. Thus, it is unclear whether gravitation sees the symmetric, Belinfante-improved EMT as in general relativity or an asymmetric EMT as in Einstein-Cartan theory [3]. Despite this, we refer to all form factors appearing in either the symmetric or asymmetric EMT as "gravitational" form factors.

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“…The deuteron structure has been investigated for a long time at low energies and it is described as a bound system of proton and neutron in mainly S wave with small D-wave admixture. Using this standard model with a convolution formalism for the deuteron structure function b 1 , we obtained the solid curve [12], which is very different from the HERMES measurements, as shown in Fig. 9.…”

Section: Polarized Pdfsmentioning

confidence: 81%

Theoretical perspective for the future experiments on parton densities

Kumano¹

2018

Proceedings of XXVI International Workshop on Deep-Inelastic Scattering and Related Subjects — PoS(DIS2018)

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I explain the current status of parton-distribution-function (PDF) studies and future experimental prospects on their determinations. First, unpolarized PDFs of the nucleon are introduced as a field of precision QCD physics including higher-order α s corrections. Second, nuclear PDFs and polarized nucleonic PDFs are discussed. Third, the determination of fragmentation functions is explained. Forth, the three-dimensional (3D) structure functions are discussed in connection with the origin of the nucleon spin and gravitational form factors of hadrons. By the 3D structure functions, gravitational sources and the origin of nucleon mass could be clarified in the microscopic level of quarks and gluons. Furthermore, 3D structure studies of hadrons could be used for clarifying internal structure of exotic hadron candidates, nuclear composition of ultra-high-energy cosmic rays, and color-entanglement phenomena. The PDF field will be developed further along with progress in other fields of science.

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Tensor-polarized structure function b1 in the standard convolution description of the deuteron

Cited by 39 publications

References 72 publications

ρ meson unpolarized generalized parton distributions with a light-front constituent quark model

ρ meson unpolarized generalized parton distributions with a light-front constituent quark model

The energy-momentum tensor of spin-1 hadrons: formalism

Theoretical perspective for the future experiments on parton densities

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