Transitions between the 4f-core-excited states in Ir16+, Ir17+, and Ir18+ ions for clock applications

Abstract

Iridium ions near 4f-5s level crossings are the leading candidates for a new type of atomic clocks with a high projected accuracy and a very high sensitivity to the temporal variation of the fine structure constant α. To identify spectra of these ions in experiment accurate calculations of the spectra and electromagnetic transition probabilities should be performed. Properties of the 4f-core-excited states in Ir16+, Ir17+, and Ir18+ ions are evaluated using relativistic many-body perturbation theory and Hartree-Fock-Relativistic method (COWAN code). We evaluate excitation energies, wavelengths, oscillator strengths, and transition rates. Our large-scale calculations includes the following set of configurations: 4f14-k5sm5pn with (k+m+n) equal to 3, 2, and 1 for the Ir16+, Ir17+, and Ir18+ ions, respectively. The 5s-5p transitions are illustrated by the synthetic spectra in the 180 - 200 range. Large contributions of magnetic-dipole transitions to lifetimes of low-lying states in the region below 2.5 Ry are demonstrated.