Effects of electron beam current density and temperature on peak height ratios Dj/D0 for cathodoluminescence of Ln2O2S:Eu

The change in the initial and steady state (∼0 and 5 s after initiation of electron beam irradiation) peak heights from the ⁵D₂⇒⁷F₃, ⁵D₁⇒⁷F₃ and ⁵D₀⇒⁷F₂ cathodoluminescent transitions from Eu³⁺ have been studied for Ln₂O₂S:Eu³⁺ (Ln=La, Gd) phosphors. Specifically, the intensity ratio of these transitions, designated as ⁵D₁/⁵D₀, increased and then decreased for both La₂O₂S:Eu³⁺ (0.1 mole%) and Gd₂O₂S:Eu³⁺ (0.4 mole%), as the current density was changed from 10 towards a 1000 μA/cm². These effects were shown to be consistent with feeding from the higher ⁵D₂ excited state to the lower energy ⁵D₁ excited state, resulting in an increase of the ⁵D₁/⁵D₀ ratio at low current densities. At higher current densities, energy was funneled from the ⁵D₁-⁵D₀ states, resulting in a decrease of the ⁵D₁/⁵D₀ ratio. These effects of feeding versus funneling were dependent on both the Eu³⁺ concentration and current density, and changed with time (i.e., approached a steady state after ∼5 s) due to increased activator interactions from induced internal electric fields. The magnitude of thermal quenching versus interaction quenching was investigated using changes of the peak height ratios of ⁵D₂/⁵D₀ and ⁵D₁/⁵D₀.