Absorption Spectra, Defect Site Distribution and Upconversion Excitation Spectra of CaF2/SrF2/BaF2:Yb3+:Er3+ Nanoparticles

Abstract

We report studies of the Yb3+ site distribution in Er3+ co-doped upconverting alkaline earth fluoride nanoparticles using high-resolution absorption measurements. Similar to bulk crystals, Yb3+ single ion cubic (Oh), and preferentially formed clusters are the dominant centres for moderate dopant concentrations. At higher concentrations, and for larger particle sizes, a minority C4v(F-) centre is also observed. Furthermore, the behaviour of Yb3+ cluster centres, whose primary absorption band is located around 10205 cm-1 (in near resonance with 980 nm laser diodes) was studied by tuning the metal cation in the host lattice from Ca2+→Sr2+→Ba2+. For co-doped materials, with heterogeneous cluster centres, Er3+ upconversion fluorescence was observed upon selective excitation of Yb3+, resulting in strong visible emission from 4H11/2, 4S3/2 and 4F9/2 multiplets. By monitoring the Er3+ 4S3/2→4I15/2 (540 nm) fluorescence, whilst scanning a laser through the wavelength dependent Yb3+ absorption, we obtain an excitation spectrum for these heterogeneous cluster centres. It is demonstrated that the group of Yb3+ ions residing near an Er3+ ion represent a small subset of the overall Yb3+ ensemble and therefore a linear absorption measurement is not necessarily a good indication of the optimum laser pump wavelength.