High-Resolution Laser Spectroscopy of Long-Lived Plutonium Isotopes

Abstract

Long-lived isotopes of plutonium were studied using two complementary techniques, high-resolution resonance ionisation spectroscopy (HR-RIS) and collinear laser spectroscopy (CLS). Isotope shifts have been measured on the 5f67s2\ 7F0 → 5f56d27s\ (J=1) and 5f67s2\ 7F1 → 5f67s7p\ (J=2) atomic transitions using the HR-RIS method and the hyperfine factors have been extracted for the odd mass nuclei 239,241Pu. Collinear laser spectroscopy was performed on the 5f67s\ 8F1/2 → J=1/2\; (27523.61cm-1) ionic transition with the hyperfine A factors measured for 239Pu. Changes in mean-squared charge radii have been extracted and show a good agreement with previous non-optical methods, with an uncertainty improvement by approximately one order of magnitude. Plutonium represents the heaviest element studied to date using collinear laser spectroscopy.