Abstract
Er3+ emission in the wide bandgap matrix SnO2 is observed either through a direct Er ion excitation process as well as by an indirect process, through energy transfer in samples codoped with Yb 3+ ions. Electron-hole generation in the tin dioxide matrix is also used to promote rare-earth ion excitation. Photoluminescence spectra as function of temperature indicate a slight decrease in the emission intensity with temperature increase, yielding low activation energy, about 3.8meV, since the emission even at room temperature is rather considerable.
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De Morais, E. A., Scalvi, L. V. A., Martins, M. R., & Ribeiro, S. J. L. (2006). Analysis of Er3+ incorporation in SnO2 by optical investigation. In Brazilian Journal of Physics (Vol. 36, pp. 270–273). Sociedade Brasileira de Fisica. https://doi.org/10.1590/s0103-97332006000300010
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