Optical spectroscopy of Eu super(3+) ions doped in YAl sub(3) (BO sub(3)) sub(4) crystal

The electronic structure of Eu super(3+) ions doped in YAl sub(3) (BO sub(3)) sub(4) crystal are investigated by means of room temperature absorption and emission spectroscopy in the 15,000-30,000 cm super(-1) range. The observed transitions are assigned and analyzed on the basis of group theory ass...

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Veröffentlicht in:	Journal of luminescence 2015-04, Vol.160, p.95-100
Hauptverfasser:	Amar, NBen, Koubaa, T, Hassairi, MA, Kbaili, I, Dammak, M
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Sprache:	eng
Schlagworte:	Calorimetry Computational efficiency Computing time Electronic structure Emission spectroscopy Fluorescence Mathematical analysis Parametrization
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creator	Amar, NBen Koubaa, T Hassairi, MA Kbaili, I Dammak, M
description	The electronic structure of Eu super(3+) ions doped in YAl sub(3) (BO sub(3)) sub(4) crystal are investigated by means of room temperature absorption and emission spectroscopy in the 15,000-30,000 cm super(-1) range. The observed transitions are assigned and analyzed on the basis of group theory assuming that Eu super(3+) ion occupies a D sub(3) symmetry site. Eu super(3+) Free-ion energy diagram is presented and the corresponding free ion parameters are calculated. Calorimetric parameters of the Eu super(3+) ions red emission in YAB are calculated (x=0.67, y=0.32). The Judd-Ofelt parameterization is applied to the analysis of the room temperature absorption and emission spectra. The intensities parameters are determined as: Omega sub(2)=2.2610 super(-20) cm super(2), Omega sub(4)=5.1110 super(-20) cm super(2) and Omega sub(6)=0.7810 super(-20) cm super(2). These parameters are used to calculate, the line strength, radiative transition probability, fluorescence, branching ratio and radiative lifetime. The calculated super(5)D sub(0) radiative life time around 3.6 ms is compared with the experimental value. The calculated quantum efficiency is about 35%.
doi_str_mv	10.1016/j.jlumin.2014.11.045
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The observed transitions are assigned and analyzed on the basis of group theory assuming that Eu super(3+) ion occupies a D sub(3) symmetry site. Eu super(3+) Free-ion energy diagram is presented and the corresponding free ion parameters are calculated. Calorimetric parameters of the Eu super(3+) ions red emission in YAB are calculated (x=0.67, y=0.32). The Judd-Ofelt parameterization is applied to the analysis of the room temperature absorption and emission spectra. The intensities parameters are determined as: Omega sub(2)=2.2610 super(-20) cm super(2), Omega sub(4)=5.1110 super(-20) cm super(2) and Omega sub(6)=0.7810 super(-20) cm super(2). These parameters are used to calculate, the line strength, radiative transition probability, fluorescence, branching ratio and radiative lifetime. The calculated super(5)D sub(0) radiative life time around 3.6 ms is compared with the experimental value. 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The observed transitions are assigned and analyzed on the basis of group theory assuming that Eu super(3+) ion occupies a D sub(3) symmetry site. Eu super(3+) Free-ion energy diagram is presented and the corresponding free ion parameters are calculated. Calorimetric parameters of the Eu super(3+) ions red emission in YAB are calculated (x=0.67, y=0.32). The Judd-Ofelt parameterization is applied to the analysis of the room temperature absorption and emission spectra. The intensities parameters are determined as: Omega sub(2)=2.2610 super(-20) cm super(2), Omega sub(4)=5.1110 super(-20) cm super(2) and Omega sub(6)=0.7810 super(-20) cm super(2). These parameters are used to calculate, the line strength, radiative transition probability, fluorescence, branching ratio and radiative lifetime. The calculated super(5)D sub(0) radiative life time around 3.6 ms is compared with the experimental value. 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The observed transitions are assigned and analyzed on the basis of group theory assuming that Eu super(3+) ion occupies a D sub(3) symmetry site. Eu super(3+) Free-ion energy diagram is presented and the corresponding free ion parameters are calculated. Calorimetric parameters of the Eu super(3+) ions red emission in YAB are calculated (x=0.67, y=0.32). The Judd-Ofelt parameterization is applied to the analysis of the room temperature absorption and emission spectra. The intensities parameters are determined as: Omega sub(2)=2.2610 super(-20) cm super(2), Omega sub(4)=5.1110 super(-20) cm super(2) and Omega sub(6)=0.7810 super(-20) cm super(2). These parameters are used to calculate, the line strength, radiative transition probability, fluorescence, branching ratio and radiative lifetime. The calculated super(5)D sub(0) radiative life time around 3.6 ms is compared with the experimental value. The calculated quantum efficiency is about 35%.</abstract><doi>10.1016/j.jlumin.2014.11.045</doi></addata></record>
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subjects	Calorimetry Computational efficiency Computing time Electronic structure Emission spectroscopy Fluorescence Mathematical analysis Parametrization
title	Optical spectroscopy of Eu super(3+) ions doped in YAl sub(3) (BO sub(3)) sub(4) crystal
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