Effective-Hamiltonian parameters for ab initio energy-level calculations of SrCl2:Yb2+ and CsCaBr3:Yb2+

Abstract

Calculated energy levels from recent ab initio studies of the electronic structure of SrCl2:Yb2+ and CsCaBr3:Yb2+ are fitted with a semi-empirical "crystal-field" Hamiltonian, which acts within the model space 4f14 + 4f135d + 4f136s. Parameters are obtained for the minima of the potential-energy curves for each energy level and also for a range of anion-cation separations. The parameters are compared with published results parameters fitted to experimental data and to atomic calculations. The states with significant 4f136s character give a good approximation of the impurity-trapped exciton states that appear in the ab initio calculations.