Influence of Impurities on the Luminescence Quantum Efficiency of ( La , Ce , Tb ) PO 4

Abstract

The influence of impurities on the luminescence quantum efficiency of and has been studied. The transition metal ions Fe and Mn are not built into the lattice under a reducing firing atmosphere. Tetravalent Ce⁴⁺ is probably present in a second phase. Codoping with cations with different valencies has no influence on the Ce⁴⁺ amount nor on the Ce³⁺ quantum efficiency. The energy transfer rate from Ce³⁺ to a number of rare‐earth ions (Pr³⁺, Nd³⁺, Dy³⁺, Ho³⁺, Er³⁺) is low. Therefore, low concentrations of these ions do not compete efficiently with the Tb³⁺ ion for the excitation energy on the Ce³⁺ ion. However, the Ce³⁺ quantum efficiency is reduced by Eu³⁺ due to an electron transfer process. Energy transfer between Tb³⁺ ions is restricted to Tb³⁺ clusters, so that the probability that the excitation energy reaches impurities is low. Therefore low concentrations of rare‐earth ions have only a small effect on the Tb³⁺ quantum efficiency.