Increase of the 800 nm excited Tm3+ blue upconversion emission in fluoroindate glasses by codoping with Yb3+ ions
暂无分享,去创建一个
[1] U. Rodríguez-Mendoza,et al. Infrared, blue and ultraviolet upconversion emissions in Yb3+–Tm3+-doped fluoroindate glasses , 1999 .
[2] U. Rodríguez-Mendoza,et al. Upconversion dynamics in Yb3+-Ho3+ doped fluoroindate glasses , 1998 .
[3] Younes Messaddeq,et al. Optical spectroscopy of Er3+ and Yb3+ co-doped fluoroindate glasses , 1998 .
[4] Tomoko Ohtsuki,et al. Optical transitions and frequency upconversion emission of Er3+ ions in Ga2S3–GeS2–La2S3 glasses , 1998 .
[5] Y. Messaddeq,et al. Avalanche upconversion in Er3+ doped fluoroindate glass , 1997 .
[6] David Shepherd,et al. Blue avalanche upconversion in Tm:ZBLAN fiber , 1997 .
[7] Yanbing Hou,et al. Research on the up-conversion luminescence of Tm3+ ion in crystal and amorphous pentaphosphate materials , 1996 .
[8] Kazuyuki Hirao,et al. INTENSE ULTRAVIOLET AND BLUE UPCONVERSION FLUORESCENCE IN TM3+ -DOPED FLUOROINDATE GLASSES , 1996 .
[9] R. Kanno,et al. Upconversion luminescence of Er3+ in CdX2 system glasses (X=Cl, Br, I) , 1995 .
[10] D. Hanna,et al. Spectroscopy and CW 2-photon up-conversion in Tm3+-doped ZnCl2-based glass , 1995 .
[11] J. Adam,et al. Avalanche upconversion in Tm3+-doped BIGaZYTZr glass , 1995 .
[12] Zhang,et al. Blue upconversion with excitation into Tm ions at 780 nm in Yb- and Tm-codoped fluoride crystals. , 1995, Physical review. B, Condensed matter.
[13] R. Kanno,et al. Upconversion luminescence of Er3+ in chloride glasses based on ZnCl2 or CdCl2 , 1994 .
[14] G. Boulon,et al. Excited-state absorption in Tm3+ doped LiNbO3: MgO and Gd3Ga5O12 and looping mechanism , 1994 .
[15] C. Wyon,et al. Luminescence properties of the Tm3+ doped silicates Y2SiO5, CaY4(SiO4)3O and SrY4(SiO4)3O , 1994 .
[16] B. R. Reddy,et al. Near-infrared-to-blue energy upconversion in LaF 3 :Ho 3+ , 1994 .
[17] F. Pellé,et al. Red to blue up‐conversion emission of Tm3+ ions in Yb3+‐doped glass ceramic , 1994 .
[18] W. Yen,et al. Observation of avalanche-like behavior in Tm3+ : Y2O3 , 1994 .
[19] M. Joubert,et al. Red-to-blue up-conversion spectroscopy of Tm3+ in SrF2, CaF2, BaF2 and CdF2 , 1994 .
[20] I. R. Martín,et al. Cross-relaxation for Tm3+ ions in indium-based glasses , 1993 .
[21] P. Goldner,et al. Enhanced Tm3+ blue emission in Tm, Yb, co‐doped fluorophosphate glasses due to back energy transfer processes , 1993 .
[22] Soga,et al. Excited-state absorption mechanisms in red-laser-pumped uv and blue upconversions in Tm3+-doped fluoroaluminate glass. , 1993, Physical review. B, Condensed matter.
[23] Soga,et al. Upconversion properties, multiphonon relaxation, and local environment of rare-earth ions in fluorophosphate glasses. , 1992, Physical review. B, Condensed matter.
[24] Adam,et al. Fluorescence mechanisms in Tm3+ singly doped and Tm3+, Ho3+ doubly doped indium-based fluoride glasses. , 1990, Physical review. B, Condensed matter.
[25] P. Hagenmuller,et al. Nd3+ → Yb3+ energy transfer in glasses with composition close to LiLnP4O12 metaphosphate (Ln = La, Nd, Yb) , 1986 .
[26] M. Inokuti,et al. Influence of Energy Transfer by the Exchange Mechanism on Donor Luminescence , 1965 .