First laser spectroscopy measurements of charge radii in Al isotopes from 25Al to 22Al reveal a step-like increase toward the proton drip line with similar radii for 22Al and 23Al, consistent with mirror-partner proton-skin trends.
Nuclear Sizes and the Isotope Shift
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abstract
Darwin-Foldy nuclear-size corrections in electronic atoms and nuclear radii are discussed from the nuclear-physics perspective. Interpretation of precise isotope-shift measurements is formalism dependent, and care must be exercised in interpreting these results and those obtained from relativistic electron scattering from nuclei. We strongly advocate that the entire nuclear-charge operator be used in calculating nuclear-size corrections in atoms, rather than relegating portions of it to the non-radiative recoil corrections. A preliminary examination of the intrinsic deuteron radius obtained from isotope-shift measurements suggests the presence of small meson-exchange currents (exotic binding contributions of relativistic order) in the nuclear charge operator, which contribute approximately 1/2%.
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Nuclear charge radii of aluminium isotopes at the proton drip line
First laser spectroscopy measurements of charge radii in Al isotopes from 25Al to 22Al reveal a step-like increase toward the proton drip line with similar radii for 22Al and 23Al, consistent with mirror-partner proton-skin trends.