Derives and numerically validates an analog of the Lellouch-Lüscher relation linking few-body scattering loss rates to energies and widths of harmonically trapped bosonic states.
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AFQMC entropy phase diagrams for the 3D Hubbard model show that interaction-dependent entropy increase and density disorder quantitatively account for the experimental AFM structure factor maximum at U/t ≃ 11.75 rather than the prior theoretical value ≃ 8.
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Lellouch-L\"uscher relation for ultracold few-atom systems under confinement
Derives and numerically validates an analog of the Lellouch-Lüscher relation linking few-body scattering loss rates to energies and widths of harmonically trapped bosonic states.
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Thermal Entropy, Density Disorder and Antiferromagnetism of Repulsive Fermions in 3D Optical Lattice
AFQMC entropy phase diagrams for the 3D Hubbard model show that interaction-dependent entropy increase and density disorder quantitatively account for the experimental AFM structure factor maximum at U/t ≃ 11.75 rather than the prior theoretical value ≃ 8.