[1] Smit M K. New focusing and dispersive planar component based on an optical phased array. Electronics Letters,1988,24(7): 385～386

[2] Smit M K,Dam C Van. Phasar-based WDM-devices:Principles,design and applications. IEEE Journal of Selected Topics in Quantum Electronics,1996,2 (2):236～250

[3] Zhou Qincun,Dao Daoxin,Sheng Zhongyan,et al. Calculation of the far field pattern from planar waveguide using a modified Gaussian beam approximation. Acta Optica Sinica,2003,23(5): 587～592

[4] Lei Hongbin,Ou Haiyan,Yang Qinqing,et al. Analysis and design of array aperture for phased-array waveguide grating multi/demultiplexer. Chinese Journal of Semiconductors,2000,21(4): 359～364

[5] Lu Si,Yan Yingbai,Jin Guofan,et al. Design of low insertion loss arrayed waveguide grating. Acta Photonica Sinica,2003,32(7): 769～772

[6] Wang Ke,Wang Xinyi Y,Lin Bin,et al. The scalar theory and a simplified model of arrayed wave-guide grating demux. Acta Photonica Sinica,2004,33 (9):1072～1076

[7] Mu oz P,Pastor D,Capmany J. Modeling and design of arrayed waveguide gratings. Journal of Lightwave Technology,2002,20(4): 661～674

[8] Ma C S,Wang X Y,Zhang H M,et al. An efficient technique for analyzing transmission characteristics of arrayed waveguide grating multiplexers. Optical and Quantum Electronics,2004,36(8): 759～771

[9] Zhao Yu,Ma Chunsheng,Zhang Darming,et al. Research on key technique for a polymeric arrayed waveguide grating multiplexer. Acta Photonica Sinica,2003,32(4) : 417～420

[10] Okamoto K. Recent progress of integrated optics planar lightwave circuits. Optical and Quantum Electronics,1999,31(2) : 107～129

[11] Sugita A,Kaneko A,Okamoto K,et al. Very low insertion loss arrayed-waveguide grating with vertically tapered waveguides. IEEE Photonics Technology Letters,2000,12(9) : 1180～1182

[12] Tang Y Z,Jia K M,Li B Y,et al. Silica-based arrayed waveguide grating with flattened spectral response using a multimode nterference coupler. Chinese Physics Letters,2004,21(6): 1064～1066

[13] Liu Qin,Ma Weidong,Wang Wenmin,et al. The research of coarse wavelength division multiplexer based on array waveguide grating with broadened pass-band and low crosstalk. Acta Optica Sinica,2004,24(9):1265～1268

[14] Wang Wenmin,Ma Weidong,Chen Guang,et al. Optimum design of AWG router with flattened passband and low loss. Acta Photonica Sinica,2003,32 (9):1049～1052

[15] Dragone C. Efficient N × N star coupler based on fourier optics. Electronics Letters,1988,24 (15) : 942～944

[16] Dragone C. Efficient N×N star couplers using fourier optics. Journal of Lightwave Technology,1989,7(3) : 479～489

[17] Qiu Liang,Ding Zhu,Yang Xinglin. The theoretical study and design of N × N dielectric slab star coupler. Journal of Microwaves,1997,13(4): 307～313,326

[18] Xie Jianping,Ming Hai. The Foundation of Modern Optics. Hefei: University of Science and Technology of China Press,1989.87～93

[19] Guo Fuyuan,Lin Bin,Chen Yuqing,et al. Characteristic analysis of diffraction from planar waveguide. Acta Optica Sinica,2002,22(12): 1513～1517

[20] Marcatili E A J. Rectangular dielectric waveguides and directional couplers for integrated optics. Bell System Technical Journal,1969,48(7): 2071～2102

[21] Wu Chongqing. Optical Waveguide Theory. Beijing:Tsinghua University Press,2000.1～24