Finite nuclear size corrections to hyperfine structure in muonic atoms increase monotonically with nuclear charge Z, show state dependence, and vary significantly with the choice of nuclear model.
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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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Finite Nuclear Size Corrections on Hyperfine Structure in Muonic Atoms
Finite nuclear size corrections to hyperfine structure in muonic atoms increase monotonically with nuclear charge Z, show state dependence, and vary significantly with the choice of nuclear model.
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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.