Vacuum Ultraviolet Synchrotron Measurements of Excitation in NaMgF3:Yb2+
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Publication date
2016
Authors
Hughes-Currie, R.B.
Ivanovskikh, K.V.
Reid, M.F.
Wells, J.-P.R.
Reeves, R.J.
Meijerink, Andries
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Document Type
Article
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taverne
Abstract
Results of a vacuum ultraviolet spectroscopic characterization of NaMgF3:Yb2+ are presented. The material demonstrates emission features associated with self-trapped excitons and impurity-trapped excitons. The emission features noticeably overlap giving rise to a broad emission band from 17 000 to 35 000 cm−1 at a sample temperature of 8 K. To identify the true profiles of the emission features we have used a deconvolution procedure. The deconvolution was possible due to the thermal quenching of self-trapped excitons at room temperature that allowed for direct observations of the impurity trapped exciton emission band. Energy transfer between host electronic excitations (excitons and e-h pairs) and Yb2+ ions leading to the formation of impurity-trapped excitons is evident from excitation spectra.
Keywords
Self-trapped exciton, Impurity-trapped exciton, Lanthanide, Ytterbium, NaMgF3, VUV spectroscopy, Taverne
Citation
Hughes-Currie, R B, Ivanovskikh, K V, Reid, M F, Wells, J-PR, Reeves, R J & Meijerink, A 2016, 'Vacuum Ultraviolet Synchrotron Measurements of Excitation in NaMgF3:Yb2+', Journal of Luminescence, vol. 169, no. Part B, 169, pp. 419-421. https://doi.org/10.1016/j.jlumin.2015.03.023