參考文獻 |
Reference:
[1] M. K. Smit and C. van Dam, “PHASR-Based :WDM-Devices principles, design and applications,” IEEE J. Select. Topics Quantum Electron., vol. 2, pp. 236-250, 1996.
[2] P. Bernasconi, C. Doerr, C. Dragone, M. Cappuzzo, E. Laskowski and A. Paunescu, “Large N*N Waveguide gating routers,” J. Lightwave Technol., vol. 18, pp. 985-991, 2000.
[3] M. K. Smit, “New focusing and dispersive planar component based on an optical phased array,” Electron. Lett., vol. 24, pp. 385-386, 1988.
[4] A. R. Vellekoop and M.K. Smit, “Low-loss planar optical polarization splitter with small dimensions,” Electron. Lett., vol. 25, pp. 946-947, 1989.
[5] A. R. Vellekoop and M. K. Smit, “Four-channel integrated-optic wavelength Demultiplexer with weak polarization dependence,” J. Lightwave Technol., vol. 9, pp. 310-314, 1991.
[6] M. K. Smit, “ Optical phased arrays,” in Integrated Optics in Silicon-Based Aluminum Oxide, Ph.D. theses, Delft Univ. of Technol., 1991.
[7] H. Takahashi, S. Suzuki, K. Kato and I. Nishi, “Arrayed-waveguide grating for wavelength division multi/Demulti-plexer with nanometer resolution,” Electron. Lett., vol. 26, pp. 87-88, 1990.
[8] H. Takahashi, Y. Hibino and I. Nishi, “ Polarization-insensitive arrayed-waveguide grating wavelength multiplexer on silicon,” Opt. Lett., vol. 17, pp. 499-501, 1992.
[9] A. Dragone, “An N*N optical multiplexer using a planar arrangement of two star couplers,” IEEE Photon. Technol. Lett., vol. 3, pp. 812-815, 1991.
[10] A. Dragone, C. A. Edwards and R.C. Kistler, “ Integrated optics N*N multiplexer on silicon,” IEEE Photon. Technol. Lett., vol. 3, pp. 896-899, 1991.
[11] M. R. Amersfoort, “Passband broadening of integrated arrayed waveguide filter using multimode interference couplers”, Electron Lett., vol. 32, pp. 449-451, 1996.
[12] K. Okamotoa and A. Sugita, “Flat spectral response arrayed-waveguide grating multiplexer with parabolic waveguide horns”, Electron Lett., vol. 32, pp. 1661-1662, 1996.
[13] C. Dragone, “Efficient techniques for widening the passband of a wavelength router”, IEEE J. Lightwave Technol., vol. 16, pp. 1895-1906, 1998.
[14] E. Yablonovitch, “Inhibited Spontaneous Emission in Solid-State Physics and Electronics ,” Phys. Rev. Lett., vol. 58, pp. 2059-2060, 1987.
[15] J. N. Winn, Y. Fink, S. Fan, and J. D. Joannopoulos, “Omnidirectional reflection from a one-dimensionalphotonic crystal,” Opt. Lett, vol. 23, pp. 1573-1575, 1998.
[16] D. N. Chigrin, A. V. Larinenko, D. A. Yarotsky, and S. V. Gaponenko, “All-dielectric one-dimensional periodic structures for total omnidirectional reflection and partial spontaneous emission control,” J. Lightwave Technol, vol. 17, pp. 2018-2024, 1999.
[17] R. Marz, Integrated optics : Design and Modeling, Norwood, MA : Artch House, 1994.
[18] C. K. Madsen and J. H. Zhao, “Optical Filter Design and Analysis : A Signal Processing Approach”, New York : Wiley, 1999.
[19] H. Takahashi, K. Oda, H. Toba and Y. Inoue, “Transmission characteristics of arrayed waveguide N N wavelength multiplexer”, J. Lightwave Technology., vol. 13, pp. 447-455, 1995.
[20] M. C. Parker, S. D. Walker, and R. J. Mears, “An Isomorphic Fourier Transform Analysis of AWGs and FBGs”, IEEE Photonics technology Lett., vol. 13, pp. 972-974, 2001.
[21] R. Scarmozzino, A. Gopinath, R. Pregla and S. Helfert, “Numerical techniques for modeling guided-wave photonic devices,” IEEE J. Select. Topics Quantum Electron., vol. 6, pp. 150-162, 2000.
[22] G. R. Hadley, “ Transparent boundary condition for the beam propagation method,” IEEE J. Quantum Electron., vol. 28, pp. 363-370, 1992.
[23] Y. Hida, Y Hibino, H. Okazaki and Y. Ohmori, “10-m-long silica-based waveguide with a loss of 1.7 dB/m,” Integrated Photonics Research 1995, Dana Point, 1995.
[24] Y. Hibino, H. Okazaki, Y. Hida and Y. Ohmori, “ Propagation loss characteristics of long silica-based optical waveguides on 5-inch Si wafers,” Electron. Lett., vol. 29, pp. 1847-1848, Oct. 1993.
[25] S. Suzuki, K. Shuto, H. Takahashi and Y. Hibino, “ Large-scale and high density planar lightwave circuits with high-Δ GeO2-doped silica waveguides,” Electron. Lett., vol. 28, pp. 1863-1864, 1992.
[26] K. Worhoff, A. Driessen, P. V. Lambeck, L. T. H. Hilderink, P. W. C. Linders and Th. J. A. Popma, “ Plasma enhanced chemical vapor deposition silicon oxynitride optimized for application in integrated optics,” Sensors and Actuators, vol. 74, pp. 9-12, 1999.
[27] H. Nishihara, M. Haruna and T. Suhara, Optical Integrated Circuits, New York : McGraw-Hill, 1985.
[28] J. Leuthold, J. Eckner, E. Gamper, P. A. Besse, and H. Melchior, “Multimode Interference Couplers for the Conversion and Combining of Zero- and First-Order Modes”, J. Lightwave Technology., vol. 16, pp. 1228-1238, 1998.
[29] P. Muñoz, D. Pastor, and J. Capmany,“Modeling and Design of ArrayedWaveguide Gratings”, J. Lightwave Technology., vol. 16, pp. 1-14, 1998. |