Study on 2.0μm fluorescence of Ho-doped water-free fluorotellurite glasses

•Ho-TZNF60 glasses were made by specially-designed PCDH technique.•Mid-IR emission spectra were deeply probed experimentally.•The longest fluorescence lifetime at 2.04μm is presented in Ho-TZNF60 glass.•1.00Ho-TZNF60 glass is ideal material to develop Mid-IR fiber lasers. Ho3+-doped water-free fluor...

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Veröffentlicht in:	Optical materials 2013-10, Vol.35 (12), p.2573-2576
Hauptverfasser:	He, Jianli, Zhan, Huan, Zhou, Zhiguang, Zhang, Aidong, Lin, Aoxiang
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Sprache:	eng
Schlagworte:	Cross sections Emission Exact sciences and technology Fiber lasers Fiber materials Fluorescence Fluorotellurite glasses Fundamental areas of phenomenology (including applications) Glass Holmium Lasers Optical materials Optics Oxides Physics Simulation
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creator	He, Jianli Zhan, Huan Zhou, Zhiguang Zhang, Aidong Lin, Aoxiang
description	•Ho-TZNF60 glasses were made by specially-designed PCDH technique.•Mid-IR emission spectra were deeply probed experimentally.•The longest fluorescence lifetime at 2.04μm is presented in Ho-TZNF60 glass.•1.00Ho-TZNF60 glass is ideal material to develop Mid-IR fiber lasers. Ho3+-doped water-free fluorotellurite glasses with composition of 60TeO2–30ZnF2–10NaF (mol%, TZNF60) were made by using specially-designed physical and chemical dehydration technique. 2.04μm fluorescence (Ho3+: 5I7→5I8) was observed experimentally and presented in this paper: A broad bandwidth of ∼149nm, large simulated emission cross-section of 7.2×10−21cm2, and the longest reported fluorescence lifetime of ∼10ms among all the reported Ho3+-doped oxide glasses. Thanks to the absence of OH groups and low phonon energy with the addition fluorides into tellurite oxide glasses, 1.00Ho-TZNF60 glass demonstrates the maximum figure of merit (σem×τf) of 7.13×10−27m2s, thus regarded as a promising optical material for the development of 2.0μm fiber lasers.
doi_str_mv	10.1016/j.optmat.2013.07.031
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Ho3+-doped water-free fluorotellurite glasses with composition of 60TeO2–30ZnF2–10NaF (mol%, TZNF60) were made by using specially-designed physical and chemical dehydration technique. 2.04μm fluorescence (Ho3+: 5I7→5I8) was observed experimentally and presented in this paper: A broad bandwidth of ∼149nm, large simulated emission cross-section of 7.2×10−21cm2, and the longest reported fluorescence lifetime of ∼10ms among all the reported Ho3+-doped oxide glasses. Thanks to the absence of OH groups and low phonon energy with the addition fluorides into tellurite oxide glasses, 1.00Ho-TZNF60 glass demonstrates the maximum figure of merit (σem×τf) of 7.13×10−27m2s, thus regarded as a promising optical material for the development of 2.0μm fiber lasers.</abstract><cop>Oxford</cop><pub>Elsevier B.V</pub><doi>10.1016/j.optmat.2013.07.031</doi><tpages>4</tpages></addata></record>
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subjects	Cross sections Emission Exact sciences and technology Fiber lasers Fiber materials Fluorescence Fluorotellurite glasses Fundamental areas of phenomenology (including applications) Glass Holmium Lasers Optical materials Optics Oxides Physics Simulation
title	Study on 2.0μm fluorescence of Ho-doped water-free fluorotellurite glasses
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