Efficient Nd 3 + → Yb 3 + energy transfer in Nd 3 + , Yb 3 + : Gd 3 Ga 5 O 12 multicenter garnet crystal

For seeking better laser crystals with good optical properties and high efficiency, especially for application in a high power solid-state laser, Yb 3 + , Nd 3 + : Gd 3 Ga 5 O 12 crystal (abbreviated as Yb,Nd:GGG below) was grown by Czochralski method. A complete optical characterization was reporte...

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Veröffentlicht in:	Journal of applied physics 2009-04, Vol.105 (8), p.083113-083113-6
Hauptverfasser:	Jia, Zhitai, Arcangeli, Andrea, Tao, Xutang, Zhang, Jian, Dong, Chunming, Jiang, Minhua, Bonelli, Lucia, Tonelli, Mauro
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container_title	Journal of applied physics
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creator	Jia, Zhitai Arcangeli, Andrea Tao, Xutang Zhang, Jian Dong, Chunming Jiang, Minhua Bonelli, Lucia Tonelli, Mauro
description	For seeking better laser crystals with good optical properties and high efficiency, especially for application in a high power solid-state laser, Yb 3 + , Nd 3 + : Gd 3 Ga 5 O 12 crystal (abbreviated as Yb,Nd:GGG below) was grown by Czochralski method. A complete optical characterization was reported including absorption and emission spectra at different temperatures and fluorescence lifetimes. Very efficient Nd 3 + F 4 3 / 2 → Yb 3 + F 2 5 / 2 energy transfer was found whereas the back transfer was completely quenched at low temperature ( T < 200 K ) . From the data of Nd 3 + fluorescence lifetime and emission spectrum we achieved the energy-transfer efficiency as large as 94% at 77 K and 84% at 300 K, respectively. After fitting the decay curve we got the energy-transfer microparameter with a value of 2.1 × 10 − 39 cm 6 s − 1 at 300 K.
doi_str_mv	10.1063/1.3115442
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A complete optical characterization was reported including absorption and emission spectra at different temperatures and fluorescence lifetimes. Very efficient Nd 3 + F 4 3 / 2 → Yb 3 + F 2 5 / 2 energy transfer was found whereas the back transfer was completely quenched at low temperature ( T < 200 K ) . From the data of Nd 3 + fluorescence lifetime and emission spectrum we achieved the energy-transfer efficiency as large as 94% at 77 K and 84% at 300 K, respectively. 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A complete optical characterization was reported including absorption and emission spectra at different temperatures and fluorescence lifetimes. Very efficient Nd 3 + F 4 3 / 2 → Yb 3 + F 2 5 / 2 energy transfer was found whereas the back transfer was completely quenched at low temperature ( T < 200 K ) . From the data of Nd 3 + fluorescence lifetime and emission spectrum we achieved the energy-transfer efficiency as large as 94% at 77 K and 84% at 300 K, respectively. 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A complete optical characterization was reported including absorption and emission spectra at different temperatures and fluorescence lifetimes. Very efficient Nd 3 + F 4 3 / 2 → Yb 3 + F 2 5 / 2 energy transfer was found whereas the back transfer was completely quenched at low temperature ( T < 200 K ) . From the data of Nd 3 + fluorescence lifetime and emission spectrum we achieved the energy-transfer efficiency as large as 94% at 77 K and 84% at 300 K, respectively. After fitting the decay curve we got the energy-transfer microparameter with a value of 2.1 × 10 − 39 cm 6 s − 1 at 300 K.</abstract><pub>American Institute of Physics</pub><doi>10.1063/1.3115442</doi></addata></record>
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title	Efficient Nd 3 + → Yb 3 + energy transfer in Nd 3 + , Yb 3 + : Gd 3 Ga 5 O 12 multicenter garnet crystal
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