Electron-Nuclear Interactions as a Test of Crystal-Field Parameters for Low Symmetry Systems: Zeeman-Hyperfine Spectroscopy of Ho3+ Doped Y2SiO5

Abstract

High-resolution Zeeman spectroscopy of electronic-nuclear hyperfine levels of 5I8→5I7 transitions in Ho3+:Y2SiO5 is reported. Crystal-field parameters determined for the two C1 symmetry sites in Er3+:Y2SiO5 are successfully used to model the Zeeman-hyperfine data, including the prediction of avoided crossings between hyperfine levels under the influence of an external magnetic field. The two six- and seven-coordinate substitutional sites may be distinguished by comparing the spectra with crystal-field calculations.