Crystal field effects in REOBr:Eu3+

Abstract

Crystal field parameters (B^k_q) were obtained for the REOBr:Eu³⁺ series (RE = Y, La, Gd) and LaOI:Eu³⁺ from the analysis of fluorescence spectra. The sets of five nonzero B^k_q parameters for the C_4v symmetry reproduce the experimental ⁷F_J Stark level schemes within a few cm⁻¹. The Racah (E_0–3) and spin–orbit (ζ) parameters were determined for the REOBr:Eu³⁺ series with the aid of excitation spectra. Only insignificant shifts were observed in the parameter values along the series. A simulation of the Stark level sequences of excited levels was carried out on a strongly reduced basis set of ^2S+LL_JM levels. A poor simulation was obtained unless the free‐ion wave functions were well defined. A comparison of the crystal field parameters for the whole REOX:Eu³⁺ series (RE = Y,La,Gd; X = Cl, Br,I) shows an increase in the strength of the crystal field with increasing ionic radius of the RE³⁺ host cation. A similar pattern prevails in the oxyhalide series from the oxychloride to the oxybromide host. The crystal field effect in LaOI:Eu³⁺ is practically equal to that in LaOBr:Eu³⁺.