Muonic-atom x-ray measurements determine the charge radii of 35Cl and 37Cl as 3.3333(23) fm and 3.3444(23) fm respectively, with the isotope difference 25 times more precise than before.
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Neutron pairing gaps in calcium isotopes are insensitive to variations in third-order chiral interactions, indicating that nuclear superfluidity requires improved many-body modeling or higher-order terms.
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Charge radii of Cl isotopes from x-ray spectroscopy of muonic atoms
Muonic-atom x-ray measurements determine the charge radii of 35Cl and 37Cl as 3.3333(23) fm and 3.3444(23) fm respectively, with the isotope difference 25 times more precise than before.
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Chiral interactions and superfluidity in the calcium isotopic chain
Neutron pairing gaps in calcium isotopes are insensitive to variations in third-order chiral interactions, indicating that nuclear superfluidity requires improved many-body modeling or higher-order terms.