Calculation of energies and hyperfine-structure constants of 233U+and 233U

We carried out calculations of the energies and magnetic dipole hyperfine-structure constants of the low-lying states of 233U+ and 233U using two different approaches. With six valence electrons and a very heavy core, uranium represents a major challenge for precision atomic theory even using large-scale computational resources. The first approach combines configuration interaction (CI) with a method allowing us to include core-valence correlations to all orders of the perturbation theory over residual Coulomb interaction. The second approach is a pure CI method which allows the use of different initial approximations. We present a detailed analysis of all calculated properties and discuss the advantages and disadvantages of each of these methods. We report a preliminary value of the U nuclear magnetic moment and outline the need for further experiments.

Automated summary

In this study, two different approaches were used to calculate the energies and magnetic dipole hyperfine-structure constants of the low-lying states of 233U+ and 233U. The results were compared and analyzed, providing a preliminary value for the U nuclear magnetic moment and outlining the need for further experiments.