2003 Help me understand this report
Optical transitions and visible upconversion in Er3+ doped niobic tellurite glass
Abstract: Er 3+ doped Nb2O5–TeO2 (NT) glass suitable for developing optical fiber laser and amplifier has been fabricated and characterized. Intense and broad 1.53 μm infrared fluorescence and visible upconversion luminescence were observed under 975 nm diode laser and 798 nm laser excitation. For 1.53 μm emission band, the full width at half-maximum is 51 nm, the fluorescence lifetime is 2.6 ms, and the quantum efficiency is ∼100%. The maximum emission cross section is 8.52×10−21 cm2 at 1.532 μm, and is higher than the…
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Cited by 214 publications
(101 citation statements)
References 34 publications
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“…[10][11][12][13][14] These tellurite glasses are transparent in the visible, near, and middle infrared regions. In comparison with silica glasses, they present larger refraction index and smaller phonon energies ͑ϳ700 cm −1 ͒, comparable to germanate glasses.…”
mentioning
confidence: 99%
“…[10][11][12][13][14] These tellurite glasses are transparent in the visible, near, and middle infrared regions. In comparison with silica glasses, they present larger refraction index and smaller phonon energies ͑ϳ700 cm −1 ͒, comparable to germanate glasses.…”
mentioning
confidence: 99%
“…All samples show three main peaks located at 525, 548 and 662 nm, which was attributed to the 2 H 11/ 2 -4 I 15/2 (525 nm), 4 S 3/2 -4 I 15/2 (548 nm), 4 F 9/2 -4 I 15/2 (662 nm) of Er 3 þ , respectively. The UC emission mechanism was investigated based on the relation between excitation light power and the emission intensity [21,22]. As shown in Fig.…”
Section: Resultsmentioning
confidence: 99%
“…Currently, Er 3+ Yb 3+ -codoped glass has received considerable attention due to its potential applications in compact optical amplifiers and laser sources in the 1.55 µm band [9,10]. Yb 3+ is often used to enhance the absorption cross-section of Er 3+ at 980 nm and gives rise to 4 I 13/2 → 4 I 15/2 sensitized emission through the non-radiative energy transfer, Yb 3+ : 2 F 5/2 → Er 3+ : 4 I 11/2 .…”
Section: Introductionmentioning
confidence: 99%
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