Charge-state distribution of Li ions from the β decay of laser-trapped 6He atoms

Abstract

Background: The accurate determination of atomic final states following nuclear β decay plays an important role in many experiments. In particular, the charge state distributions of ions following nuclear β decay are important for determinations of the β- angular correlation with improved precision. Purpose: Our measurement aims at providing benchmarks to test theoretical calculations. Method: The kinematics of Lin+ ions produced following the β decay of 6 He within an electric field were measured using 6 He atoms in the metastable (1s2s,~3S1) and in the (1s2p,~3P2) states confined by a magneto-optical trap. The electron shake-off probabilities were deduced including their dependence on ion energy. Results: We find significant discrepancies on the fractions of Li ions in the different charge states with respect to a recent calculation and discuss a plausible explanation. We also point out that there is no explanation for a large discrepancy between the same calculation and a previous measurement of the Li-ion energy dependence of the charge distribution from decays of the electronic ground state.