Optical absorption and photoluminescence properties of Er3+-doped
70TeO2-30ZnO glass are investigated. Judd-Ofelt intensity
parameters of Er3+ have been determined to calculate the radiative
transition probabilities and the radiative lifetimes of excited states. An
infrared to visible up-conversion was observed at room temperature in this
tellurite glass system using a 797 nm excitation line. A study of the 4S3/2-4I15/2 transition (554 nm) versus power excitation
provided evidence for a two-step up-conversion process under this excitation.
A red emission (663 nm) originating from the 4F9/2-4I15/2 transition has been observed as well. It was found that the
efficiency of this up-conversion line is enhanced considerably with the Er3+ concentration relative to the green emission (554 nm). This
behaviour has been explained in terms of an energy transfer between excited
ions. The temperature dependence of up-conversion intensity has been also
studied in the range 40-310 K. It was found that the thermal quenching of the
green emission (4S3/2-4I15/2) is large enough
compared with those of the red transition (4F9/2-4I15/2 ). This thermal quenching has been discussed using the Riseberg and
Moos model of multiphonon emission. It has been shown that the latter approach
is not consistent with existing results. A complete analysis of the
temperature-dependent up-conversion has been made using an additional decay
rate which may be attributed to a non-radiative energy transfer and/or a
charge transfer through trapping impurities. A good agreement has been
achieved between measured and computed data.
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