Interionic distance distributions between Er3+ and Yb3+ as dopants in some crystal matrix hosts used for upconversion luminescence

Abstract

The upconversion process for the Er3+ ion, when irradiated with IR photons at 980 nm, strongly depends upon the presence of the sensitizer Yb3+ ions. There is a good correlation between the relative and absolute concentrations of the activator and sensitizer species and the intensities of the emission lines of the resulted visible spectrum. The ratios between emission intensities in the green band (510-580 nm) and red band (640-700 nm) (i.e., the spectral content) show similarities between different host crystals in which Er3+ and Yb3+ are embedded, which is an indication that, regardless of the crystalline medium of embedding, the dopant ions interact in some specific and similar ways. In order to reveal the mechanisms for the energy transfer between activator and sensitizer ions, one needs a model for the spatial distribution of these relative to one another, from which some statistical data, like crystal matrix average surrounding radii, could be inferred. Some models of cubic neighboring are presented for the relative concentration ratios of Er3+:Yb3+, respectively of 1:2, 1:4, and 1:8.