[2] Gao Yuan,Nie Qiuhua,et al. Thermal stability,Judd-Ofelt theory analysis and spectroscopic properties of a new Er3+/Yb3+-codoped germano-tellurite glass [J].Spectrochimica Acta Part A,2004,1-5.

[3] Shen Shaoxiong,Naftaly M. Tungsten-tellurite a host glass for broadband EDFA [J].Opt. Commun.,2002,205(4):101-105.

[6] Yang Jianhu,Dai Shixun,et al. Effect of Bi2O3 on the spectroscopic properties of erbium-doped bismuth silicate glasses [J].J. Opt. Soc. Am. B,2003,20(5): 810-815.

[7] Agarwal A,Seth V P,et al. Mixed alkali effect in optical properties of lithium-potassium bismuth borate glass system [J].Materials Lett.,2004,58: 694-698.

[8] Saisudha M B,Ramakrishna J,et al. Optical absorption of Nd3+,Sm3+ and Dy3+ in bismuth borate glasses with large radiative transition probabilities [J].Optical Materials,2002,18: 403-417.

[9] Karthikeyan B,et al. Optical and glass transition studies on Nd3+-doped lead bismuth borate glasses [J].Physica B,2003,334: 298-302.

[10] Kassab L R P,Tatumi S H,Mendes M S. Optical properties of Nd3+ doped Bi2O3-PbO-Ga2O3 glasses [J].Optics Express,2000,6(4): 104-108.

[11] Chen Qiuping,Ferraris M. Novel Er-doped PbO and B2O3 based glasses: investigation of quantum efficiency and non-radiative transition probability for 1.5 μm broadband emission fluorescence [J].Journal of Non-Crystalline Solids,2003,324: 1-9.

[12] Kassab L R P,Courrol L C,et al. Spectroscopic properties of lead fluoroborate and heavy metal oxide glasses doped with Yb3+ [J].Journal of Non-Crystalline Solids,2002,304: 233-237.

[13] Tanabe S,Sugimoto N,Ito S,et al. Broadband 1.5 μm emission of Er3+ ions in bismuth-based oxide glasses for a potential WDM amplifier,J. Lumin.,2000,87&89: 670-672.

[14] Chen Yujin,Huang Yidong,et al. Spectroscopic properties of Er3+ ions in bismuth borate glasses [J].Optical Materials,2004,25: 271-278.

[17] Man S Q,Pun E Y B,Chung P S. Upconversion luminescence of Er3+ in alkali bismuth gallate glasses [J].Appl. Phys. Lett.,2000,77(4): 483-485.

[18] Kumar G A,Martinez A,Mejia E,et al. Fluorescence and upconversion spectral studies of Ho3+ in alkali bismuth gallate glasses [J].Journal of Alloys and Compounds,2004,364: 117-120.

[19] Judd B R. Optical absorption intensities of rare-earth ions [J].Phys. Rev.,1962,127: 750-761.

[20] Ofelt G S. Intensities of crystal spectra of rare-earth ions [J].J. Chem. Phys.,1962,37: 511-520.

[21] Tanabe S,Ohyagi T,et al. Compositional dependence of Judd-Ofelt parameters of Er3+ ions in alkali-metal borate glasses [J].Phys. Rev. B,1992,46: 3305-3310.

[22] Takebe H,Nageno Y,Morinaga K. Compositional dependence of Judd-Ofelt patameters in silicate,borate,and phosphate glasses [J].J. Am. Ceram. SOC,1995,78: 1161-1168.

[23] Tanabe S. Optical transitions of rare earth ions for amplifiers: how the local structure works in glass [J].J. Non Cryst. Solids,1999,259: 1-9.

[24] McCumber D E. Theory of phonon-terminated optical masers [J].Phys. Rev. A,1964,134: A299-A306.

[25] Miniscalco W J,Quimby R S. General procedure for the analysis of Er3+ cross section [J].Opt. Lett.,1991,16:258-260.

[27] Shiqing Xu,Zhongmin Yang,et al. Spectra properties and thermal stability of Er3+-doped oxyfluoride silicate glasses for broadband optical amplifier [J].Journal of Alloys and Compounds,2003,361: 313-319.

[28] Jiang S,Luo T,Hwang B C. Er3+-doped phosphate glasses for fiber amplifiers with high gain per unit length [J].J. Non-Cry. Solids,2000,364: 263&264.

[29] Lin H,Pun E YB,Man S Q. Optical transitions and frequency upconversion of Er3+ inos in Na2O-Ca3AIGe3O12 glasses [J].J. Opt. Soc Am B,2001,18: 602.