Chiral confining RMF model applied for the first time to finite nuclei reproduces binding energies and charge radii for medium and heavy nuclei after Bayesian calibration, with discrepancies in light nuclei tied to the rigid chiral potential.
Weinberg, Phys
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VQE applied to deuteron, triton, and helium-3 in lattice pionless EFT yields energies matching classical exact diagonalization after fitting two- and three-body constants, with a noisy simulation example for triton.
Review highlighting ab initio calculations for heavy nuclei and dark matter-nucleus scattering to reduce nuclear uncertainties.
citing papers explorer
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Nuclear structure within the relativistic mean field approach including chiral symmetry and quark confinement effects
Chiral confining RMF model applied for the first time to finite nuclei reproduces binding energies and charge radii for medium and heavy nuclei after Bayesian calibration, with discrepancies in light nuclei tied to the rigid chiral potential.
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Systematic VQE Benchmarking of the Deuteron, Triton, and Helium-3 within Lattice Pionless Effective Field Theory
VQE applied to deuteron, triton, and helium-3 in lattice pionless EFT yields energies matching classical exact diagonalization after fitting two- and three-body constants, with a noisy simulation example for triton.
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Ab Initio Nuclear Theory for Heavy Nuclei and Its Application to Dark Matter-Nucleus Scattering
Review highlighting ab initio calculations for heavy nuclei and dark matter-nucleus scattering to reduce nuclear uncertainties.