Deep core holes in one-dimensional ultracold trapped fermions are substantially more robust against refilling than bulk or edge vacancies during interaction-quench dynamics.
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Lattice AFQMC calculations of the polaron equation of state at unitarity and across scattering lengths, plus neutron polaron results, provide benchmarks for cold-atom and nuclear theory.
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Core-Hole Excitation Dynamics of One-Dimensional Ultracold Trapped Fermions
Deep core holes in one-dimensional ultracold trapped fermions are substantially more robust against refilling than bulk or edge vacancies during interaction-quench dynamics.
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Ab initio study of the neutron and Fermi polarons on the lattice
Lattice AFQMC calculations of the polaron equation of state at unitarity and across scattering lengths, plus neutron polaron results, provide benchmarks for cold-atom and nuclear theory.