Intensities of Crystal Spectra of Rare-Earth Ions

Abstract

Magnetic and electric dipole transitions between levels of the 4f^x configuration perturbed by a static crystalline field are treated. The expression obtained for the pure‐electronic electric‐dipole transition probability involves matrix elements of an even‐order unit tensor between the two 4f^x states involved in the transition. The contributions to the transition probability from interactions, via the crystalline field, with the nd⁹4f^x−1, 4f^x−1nd, 4f^x−1ng configurations are shown to add linearly, in such a manner as to multiply each odd k crystal‐field parameter A_k^q by a constant. If ``J mixing'' in the 4f<sup>x</sup> configuration is neglected ΔJ between the upper and lower 4f<sup>x</sup> levels is restricted to six units or less. If ``L mixing'' is neglected then ΔL is also restricted to six units or less. Application is made to the fluorescence spectra of PrCl₃ and EuCl₃. Many of the missing and weak transitions are explained.