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Gluon Generalized TMD signatures at the EIC from exclusive heavy (axial-)vector meson production

Shohini Bhattacharya, David DeAngelo, Lei Yang, Duxin Zheng, Jian Zhou

Abstract

Potential experimental signatures of gluon generalized transverse momentum-dependent distributions (GTMDs) are proposed via exclusive heavy (axial-)vector meson production in lepton-proton collisions. Within the framework of collinear twist-3 factorization, we show that specific azimuthal-angle-dependent observables can provide sensitivity to the gluon GTMDs $F_{1,4}^g$ and $G_{1,1}^g$, which are related to partonic orbital angular momentum and spin-orbit correlations, respectively. These functions represent a unique sector of nucleon structure with no counterparts in the generalized parton distribution or transverse-momentum-dependent frameworks. We show that interference between different virtual-photon polarizations leads to distinct azimuthal modulations, including the polarization-independent $\cos 2φ$ and polarization-dependent $\sin 2φ$ terms, with $φ$ defined as the angle between the lepton scattering plane and the hadron production plane. These observables provide signatures of the elusive gluon GTMDs $F_{1,4}^g$ and $G_{1,1}^g$, opening a new channel to access the spin structure of the nucleon at the future Electron-Ion Collider.

Gluon Generalized TMD signatures at the EIC from exclusive heavy (axial-)vector meson production

Abstract

Potential experimental signatures of gluon generalized transverse momentum-dependent distributions (GTMDs) are proposed via exclusive heavy (axial-)vector meson production in lepton-proton collisions. Within the framework of collinear twist-3 factorization, we show that specific azimuthal-angle-dependent observables can provide sensitivity to the gluon GTMDs and , which are related to partonic orbital angular momentum and spin-orbit correlations, respectively. These functions represent a unique sector of nucleon structure with no counterparts in the generalized parton distribution or transverse-momentum-dependent frameworks. We show that interference between different virtual-photon polarizations leads to distinct azimuthal modulations, including the polarization-independent and polarization-dependent terms, with defined as the angle between the lepton scattering plane and the hadron production plane. These observables provide signatures of the elusive gluon GTMDs and , opening a new channel to access the spin structure of the nucleon at the future Electron-Ion Collider.
Paper Structure (9 sections, 65 equations, 2 figures)

This paper contains 9 sections, 65 equations, 2 figures.

Figures (2)

  • Figure 1: One of the six leading-order Feynman diagrams contributing to exclusive heavy-meson production through gluon exchange. The $J/\psi$ has been labeled as a representative case of a vector meson.
  • Figure 2: The six leading-order subprocesses contributing to the amplitude.