The hyperfine structure of the and states and 5) for the lithium isoelectronic sequence

Abstract

The non-relativistic hyperfine structure parameters, the Fermi contact, the spin-dipolar, the orbital and the electronic quadrupole terms, of the lithium-like ground state and low-lying states, \(\) and \(\) (n=2, 3, 4, and 5), are calculated with the full core plus correlation (FCPC) wave functions. With the 794- and 1185-term Slater-type expansions, the Fermi contact interactions of the \(\) and \(\) states in \(\) are determined to be 2.90313 a.u. and -0.21359 a.u., respectively. By using the global identities, the Fermi contact term is also given for the ground state in LiI. The typical patterns of convergence of the expectation values of the Fermi contact interaction for the lithium \(\) and \(\) states are analyzed. The contribution from the core polarization is examined. The calculated results of the lithium-like systems from LiI to NeVIII are compared with the previous theoretical results obtained with other methods, and with the experimental data available in the literature.