[1] Smit M K, Dam C. Phasar based WDM devices: principles, design and applications. IEEE Quantum Electronics, 1996, 2(2):236～250

[2] Takahashi H, Oda K, Toba H, et al. Transmission characteristics of arrayed waveguide N×N wavelength multiplexer. Journal of Lightwave Technology, 1995, 13(3): 447～455

[3] Kaneko A, Goh T, Yamada H, et al. Design and applications of silica-based planar lightwave circuits. IEEE Quantum Electronics,1999, 5(5): 1227～1236

[4] He Jianjun, Lamontagne B, Koteles E S. Polarization dispersion compensated AWG demultiplexer fabricated in a single shallow etching step. Electron Lett ,1999, 35(9): 737～738

[6] He Jianjun, Lamontagne B, Delage A, et al. Monolithic integrated wavelength demultiplexer based on a waveguide rowland circle grating in InGaAsP/InP. Journal of Lightwave Technology, 1998, 16(4): 631～638

[7] Gini E, Hunziker W, Melchior H. Polarization independent InP WDM multiplexer/demultiplexer module. Journal of Lightwave Technology, 1998, 16(4): 625～630

[8] Marz R, Cremer C. On the theory of planar spectrographs. Journal of Lightwave Technology, 1992, 10(12): 2017～2022

[9] Wu Mingcho, Chen Yungjui. Design considerations for Rowland circle gratings used in photonic integrated devices for WDM applications. Journal of Lightwave Technology, 1994, 12(11): 1939～1942

[11] Wang Daoyi, Jin Guofan, Yan Yingbai, et al. Aberration theory of arrayed waveguide grating. Journal of Lightwave Technology, 2001, 19(2): 279～284