The variable phase method is extended to noncentral potentials to compute partial-wave nucleon-nucleon correlation functions with the Reid soft-core potential for Gaussian sources of varying sizes.
Acharyaet al.(ALICE), Phys
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Charmonium-nucleon femtoscopy is examined as a probe of the nucleon D-form factor by constructing an effective potential from gravitational form factors fitted to lattice data and matched to HAL QCD results.
Theoretical predictions show that femtoscopic correlation functions for neutral Σ_c^0 π^- pairs best constrain isotensor strong interactions in charm and bottom sectors, while Coulomb repulsion diminishes discriminating power in charged channels.
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Extended Variable Phase Method for Spin-1/2 Correlation Functions
The variable phase method is extended to noncentral potentials to compute partial-wave nucleon-nucleon correlation functions with the Reid soft-core potential for Gaussian sources of varying sizes.
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Charmonium-nucleon femtoscopy as a possible probe of the nucleon gravitational form factor
Charmonium-nucleon femtoscopy is examined as a probe of the nucleon D-form factor by constructing an effective potential from gravitational form factors fitted to lattice data and matched to HAL QCD results.