Theoretical study of nonsequential two-photon ionization finds strong unexpected variation in fluorescence polarization degree at specific beam energies due to zero contribution from the dominant channel.
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High cutoffs in LO chiral EFT under Nogga-Timmermans-van Kolck power counting produce spurious bound states that prevent the Hartree-Fock method from yielding bound nuclear solutions without corrections beyond mean field.
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Fluorescence polarization as a precise tool for understanding nonsequential many-photon ionization
Theoretical study of nonsequential two-photon ionization finds strong unexpected variation in fluorescence polarization degree at specific beam energies due to zero contribution from the dominant channel.
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Cutoff effects in Hartree-Fock calculations at leading order of chiral effective field theory
High cutoffs in LO chiral EFT under Nogga-Timmermans-van Kolck power counting produce spurious bound states that prevent the Hartree-Fock method from yielding bound nuclear solutions without corrections beyond mean field.