Systematic study of spectroscopic properties and thermal stability of lead germanate glass doped with rare-earth ions

Abstract

Glasses with composition 50GeO2–(50−x)PbO–5PbF2–xLnF3 (Ln=Pr3+–Yb3+) were prepared from commercial raw materials. The content of PbF2 was constant and amounted to 5mol% whereas the concentration of luminescent ions was diverse (0.2 and 2mol%). Thermal stability of the glasses were monitored by differential thermal analysis (DTA). It has been found that increase of rare-earth fluoride content from 0.2mol% to 2mol% brings about a shift of the glass crystallization onset from 450°C to 487°C for Nd-doped samples and from 466°C to 482°C for Tm-doped samples. Optical absorption and emission spectra of Ln active ions in oxyfluoride glass have been investigated at room temperature in the ultraviolet (UV), visible (VIS) and near-infrared (NIR) region. Oscillator strengths, phenomenological Judd–Ofelt intensity parameters Ω2,4,6, radiative transition probabilities, branching ratios and radiative lifetimes of luminescent levels have been estimated. Analysis of decay curves of luminescence revealed that the increase of rare-earth fluoride content from 0.2mol% to 2mol% shortens the lifetime of the 4F3/2 level of Nd3+ from 224μs to 90μs.