The influence of Pr3+ content on luminescence and optical behavior of TeO2–WO3–PbO–Lu2O3 glass

[Display omitted] •Good stability TeO2–WO3–PbO–Lu2O3 glass as a new host for Pr3+ ions.•Luminescence intensity reaches a maximum at Pr3+ ion concentration of about 1020⋅cm−3.•Cross relaxation and energy migration processes are responsible for concentration quenching of luminescence. We have investig...

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Bibliographic Details
Published in:Optical materials 2015-09, Vol.47, p.231-236
Main Authors: Burtan-Gwizdala, Bozena, Reben, Manuela, Cisowski, Jan, Lisiecki, Radoslaw, Ryba-Romanowski, Witold, Jarzabek, Bozena, Mazurak, Zbigniew, Nosidlak, Natalia, Grelowska, Iwona
Format: Article
Language:English
Subjects:
Absorption
Judd–Ofelt analysis
Photoluminescence
Praseodymium ion
Tellurite glasses
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Summary:[Display omitted] •Good stability TeO2–WO3–PbO–Lu2O3 glass as a new host for Pr3+ ions.•Luminescence intensity reaches a maximum at Pr3+ ion concentration of about 1020⋅cm−3.•Cross relaxation and energy migration processes are responsible for concentration quenching of luminescence. We have investigated the thermal and spectroscopic properties of Pr3+-doped new tellurite matrix with the molar composition 60%TeO2–27%WO3–10%PbO–3%Lu2O3 (TWPLu). The differential thermal analysis has shown that addition of Lu2O3 to the glass results in an increasing resistance against crystallization. The ellipsometric data have provided a Sellmeier-type dispersion relations of the refractive index of the investigated glasses. The optical absorption edge of the TWPLu matrix has been described within the Urbach approach, while the absorption and fluorescence spectra of the Pr3+-doped TWPLu glasses have been analyzed in terms of the standard Judd–Ofelt theory along with the luminescence decay of the 3P0 and 1D2 levels of the Pr3+ ion. A significant influence of the Pr3+ ion concentration on the photoluminescence intensity as well as on decrease of the lifetimes of both levels has been explained by a non-radiative energy transfer between the ions through cross-relaxation and energy migration processes.
ISSN:0925-3467
1873-1252
DOI:10.1016/j.optmat.2015.05.028