[1] Chryssou C E,Pitt C W. Er3+doped Al2O3 thin films by plasma-enhanced chemical vapor deposition exhibiting a 55 nm optical bandwidth. Journal of Quantum Electronics,1998,34(19):282～284

[2] Li C R,Song C L,Li S F,et al. Acta Photonica Sinica,2003,32(12):1514～1517

[3] Suarez-Garcia A,Sema R,Jiménez de Castro M,et al.Nanostructuring the Er-Yb distribution to improve the photoluminescence response of thin films. Appl Phys Lett,2004,84(12):2151～2153

[4] Li C R,Song C L,Li S F,et al. Acta Photonics Sinaca,2006,35(2):192～196

[5] Li C R,Li S F,Song Q,et al. Acta Photonics Sinaca,2006,35(5):650～654

[6] Kik P G,Polman A. Cooperative upconversion as the gain-limiting factor in Er doped minature Al2O3 optical waveguide amplifiers. J Appl Phys,2003,93(9):5008～5012

[7] Strohhofer C,Polman A. Absorption and emission spectroscopy in Er3+-Yb3+ doped aluminum oxide waveguides. Opt Mater,2003,21 (4) :705～712

[8] Kozanecki A,Stepikhova M,Lanzerstorfer S,et al.Excitation of Er3+ ions in silicon dioxide films thermally grown on silicon. Appl Phys Lett,1998,73(20):2929～2931

[9] Ishizaka T,Kurokawa Y,Makino T,et al. Optical properties of rare earth ion (Nd3+,Er3+,and Yb3+)doped alumina films prepared by the sol-gel method. Opt Mater,2001,15(4) :293～299

[10] Polman A,Jacobson D C,Eaglesham D J,et al. Optical doping of waveguide materials by MeV Er implantation.J Appl Phys,1991,70(7):3778～3784

[11] Jimenez de Castro M,Serna R,Chaos J A,et al.Influence of defects on the photoluminescence of pulsedlaser deposited Er-doped amorphous Al2O3 films. Nucl Instr Meth B,2000,166-167(3):793～797

[12] Sema R,Ballesteros J M,Jiménez de Castro M,et al.Optically active Er-Yb doped glass films preared by pulused laser deposition. J Appl Phys,1998,84 (4):2352～2354

[13] Ting C C,Chen S Y,Lee H Y. Physical characteristics and infrared fluorescence properties of sol-gel derived Er3+-Yb3+ codoped TiO2. J Appl Phys,2003,94 (3):2102～2109

[14] Gao J H,Song C L,Li C R,et al. Optronics · Lasers,2004,15(10):1162～1166

[15] Wang X J,Lei M K,Yang T,et al. Phase structure and photoluminescence properties of Er3+-doped A12O3 powders prepared by the sol-gel method. Opt Mater,2004,26(3) :247～252

[16] Zhang L,Hu H F,Qi C H,et al. Spectroscopic properties and energy transfer in Yb3+/Er3+-doped phosphate glasses. Opt Mater,2001,17(3) :371～377

[17] Chryssou C E,Di Pasquale F,Pitt C W. Improved gain performance in Yb3+-sensitized Er3+-doped Alumina (Al2O3) channel optical waveguide amplifiers. J Light Tech,2001,19(3):345～349

[18] Hinojosa S,Meneses-Nava M A,Barbosa-García,et al.Energy back transfer,migration and energy transfer (Yb-to Er and Er-to-Yb) processes in Yb,Er : YAG. J Lumin,2003,102～103(3) :694～698

[19] Song Q,Li C R,Li J Y,et al. Photoluminescence properties of the Yb : Er co-doped Al2O3 thin film fabricated by microwave ECR plasma source enhanced RF magnetron sputtering. Opt Mater,2006,28 (8) :1344～1349