The gluon D-term at small x is a next-to-eikonal stress observable whose sign is not determined by the dipole or saturation profile.
Gravitational form factors and mechanical properties of the nucleon in a meson dominance approach
6 Pith papers cite this work. Polarity classification is still indexing.
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D-term of nuclei exhibits kinks at magic neutron numbers, showing strong sensitivity of mechanical properties to shell structure.
Charmonium-nucleon femtoscopy is proposed as a probe of the nucleon D-form factor by constructing an effective potential from lattice gravitational form factors and matching it to HAL QCD results.
Hadronic form factors violate QCD dispersion relations due to incomplete time-like spectral data above the last known resonance, which radial Regge trajectories can fill as a minimal ansatz, shown for the pion form factor.
A hadronic approach based on dispersion relations and meson dominance achieves a successful description of lattice QCD data for gravitational form factors of pions and nucleons.
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Sub-eikonal stress and model dependence of the small-$x$ gluon D-term
The gluon D-term at small x is a next-to-eikonal stress observable whose sign is not determined by the dipole or saturation profile.
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Mass radius and D-term of atomic nuclei in relativistic mean field theory
D-term of nuclei exhibits kinks at magic neutron numbers, showing strong sensitivity of mechanical properties to shell structure.
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Charmonium-nucleon femtoscopy as a possible probe of the nucleon gravitational form factor
Charmonium-nucleon femtoscopy is proposed as a probe of the nucleon D-form factor by constructing an effective potential from lattice gravitational form factors and matching it to HAL QCD results.
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Hadronic form factors in QCD and the incompleteness problem in the time-like region
Hadronic form factors violate QCD dispersion relations due to incomplete time-like spectral data above the last known resonance, which radial Regge trajectories can fill as a minimal ansatz, shown for the pion form factor.
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Particle seismology: mechanical and gravitational properties from parton-hadron duality
A hadronic approach based on dispersion relations and meson dominance achieves a successful description of lattice QCD data for gravitational form factors of pions and nucleons.
- Gluon Gravitational $ D$-Form Factor: The $\sigma$-Meson as a Dilaton Confronted with Lattice Data II