[1] Van den Hoven G N, Koper R J I M, Polman A. Net optical gain at 1.53 μm in Er-doped Al2O3 waveguides on silicon.Appl Phys Lett,1996,68(14):1886～1888

[2] Slooff L H, Blaaderen A V, Polman A, et al. Rare-earth doped polymers for planar optical amplifiers. J Appl Phys,2002,91(7):3955～3980

[5] Van den Hoven G N, Snoeks E, Polman A, et al. Upconversion in Er-implanted Al2O3 waveguides. J Appl Phys, 1996,79(3):1258～1265

[6] Pasquale F D, Federighi M. Modeling of uniform and pair-induced upconversion mechanisms in high concentration erbium-doped silica waveguides.J of Lightwave Techno,1995,13(9):1858～1864

[7] Chengren Li, Changlie Song, Shufeng Li, et al. Experimental investigation of photoluminescence spectra of Yb3+ sensitized Er3+-doped glass samples in series. Chin Opt Lett, 2003,1(11):664～667

[9] Selleri S,Petráěek J. Model analysis of rib waveguide through finite element and mode matching methods. Optical and Quantum Electronics,2001,33:373～386

[10] Pasquale F D, Fedeighi M.Analysis of erbium-doped waveguide amplifiers by a full-vectorial finite-element method.J of Lightwave Technol,1993,11(10):1565～1573

[11] Li Shufeng, Song Changlie, Li Chengren, et al.Theoretical model of Er-doped Al2O3 waveguied amplifier.Proc of SPIE, 2002,4927: 263～270