Origin of near to middle infrared luminescence and energy transfer process of Er3+/Yb3+co-doped fluorotellurite glasses under different excitations

We report the near to middle infrared luminescence and energy transfer process of Er 3+ /Yb 3+ co-doped fluorotellurite glasses under 980, 1550 and 800 nm excitations, respectively. Using a 980 nm laser diode pump, enhanced 1.5 and 2.7 μm emissions from Er 3+ :I 13/2 → 4 I 15/2 and I 11/2 → 4 I 13/2...

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Published inScientific reports Vol. 5; no. 1; p. 8233
Main Authors Huang, Feifei, Liu, Xueqiang, Ma, Yaoyao, Kang, Shuai, Hu, Lili, Chen, Danping
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 04.02.2015
Nature Publishing Group
Subjects
639/301/1019/1020/1094
639/624/1075/187
Efficiency
Energy transfer
Humanities and Social Sciences
Ions
Lasers
Luminescence
multidisciplinary
Science
Silicon
Solar cells
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Abstract We report the near to middle infrared luminescence and energy transfer process of Er 3+ /Yb 3+ co-doped fluorotellurite glasses under 980, 1550 and 800 nm excitations, respectively. Using a 980 nm laser diode pump, enhanced 1.5 and 2.7 μm emissions from Er 3+ :I 13/2 → 4 I 15/2 and I 11/2 → 4 I 13/2 transitions are observed, in which Yb 3+ ions can increase pumping efficiency and be used as energy transfer donors. Meanwhile, Yb 3+ can also be used as an acceptor and intensive upconversion luminescence of around 1000 nm is achieved from Er 3+ :I 11/2 → 4 I 15/2 and Yb 3+ : F 5/2 → 4 F 7/2 transitions using 1550 nm excitation. In addition, the luminescence properties and variation trendency by 800 nm excitation is similar to that using 1550 nm excitation. The optimum Er 3+ and Yb 3+ ion ratio is 1:1.5 and excess Yb 3+ ions decrease energy transfer efficiency under the two pumpings. These results indicate that Er 3+ /Yb 3+ co-doped fluorotellurite glasses are potential middle- infrared laser materials and may be used to increase the efficiency of the silicon solar cells.
AbstractList We report the near to middle infrared luminescence and energy transfer process of Er3+ /Yb3+ co-doped fluorotellurite glasses under 980, 1550 and 800 nm excitations, respectively. Using a 980 nm laser diode pump, enhanced 1.5 and 2.7 μm emissions from Er3+ :I13/2 ->4 I15/2 and I11/2 ->4 I13/2 transitions are observed, in which Yb3+ ions can increase pumping efficiency and be used as energy transfer donors. Meanwhile, Yb3+ can also be used as an acceptor and intensive upconversion luminescence of around 1000 nm is achieved from Er3+ :I11/2 ->4 I15/2 and Yb3+ : F5/2 ->4 F7/2 transitions using 1550 nm excitation. In addition, the luminescence properties and variation trendency by 800 nm excitation is similar to that using 1550 nm excitation. The optimum Er3+ and Yb3+ ion ratio is 1:1.5 and excess Yb3+ ions decrease energy transfer efficiency under the two pumpings. These results indicate that Er3+ /Yb3+ co-doped fluorotellurite glasses are potential middle- infrared laser materials and may be used to increase the efficiency of the silicon solar cells.
We report the near to middle infrared luminescence and energy transfer process of Er 3+ /Yb 3+ co-doped fluorotellurite glasses under 980, 1550 and 800 nm excitations, respectively. Using a 980 nm laser diode pump, enhanced 1.5 and 2.7 μm emissions from Er 3+ :I 13/2 → 4 I 15/2 and I 11/2 → 4 I 13/2 transitions are observed, in which Yb 3+ ions can increase pumping efficiency and be used as energy transfer donors. Meanwhile, Yb 3+ can also be used as an acceptor and intensive upconversion luminescence of around 1000 nm is achieved from Er 3+ :I 11/2 → 4 I 15/2 and Yb 3+ : F 5/2 → 4 F 7/2 transitions using 1550 nm excitation. In addition, the luminescence properties and variation trendency by 800 nm excitation is similar to that using 1550 nm excitation. The optimum Er 3+ and Yb 3+ ion ratio is 1:1.5 and excess Yb 3+ ions decrease energy transfer efficiency under the two pumpings. These results indicate that Er 3+ /Yb 3+ co-doped fluorotellurite glasses are potential middle- infrared laser materials and may be used to increase the efficiency of the silicon solar cells.
ArticleNumber 8233
Author Kang, Shuai
Hu, Lili
Huang, Feifei
Chen, Danping
Ma, Yaoyao
Liu, Xueqiang
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  organization: Key Laboratory of Materials for High Power Laser, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences
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Snippet We report the near to middle infrared luminescence and energy transfer process of Er 3+ /Yb 3+ co-doped fluorotellurite glasses under 980, 1550 and 800 nm...
We report the near to middle infrared luminescence and energy transfer process of Er3+ /Yb3+ co-doped fluorotellurite glasses under 980, 1550 and 800 nm...
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SubjectTerms 639/301/1019/1020/1094
639/624/1075/187
Efficiency
Energy transfer
Humanities and Social Sciences
Ions
Lasers
Luminescence
multidisciplinary
Science
Silicon
Solar cells
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Title Origin of near to middle infrared luminescence and energy transfer process of Er3+/Yb3+co-doped fluorotellurite glasses under different excitations
URI https://link.springer.com/article/10.1038/srep08233
https://www.proquest.com/docview/1898206086
https://pubmed.ncbi.nlm.nih.gov/PMC5389029
Volume 5
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