[1] Giles C R. Lightwave applications of fiber Bragg gratings. IEEE J. Lightwave. Technol., 1997, 15(8):1391~1404
[2] Ouellette F. Dispersion cancellation using linearly chirped Bragg grating filters in optical waveguides. Opt. Lett., 1987, 12(10):847~849
[3] Albert J, Hill K O, Malo B et al.. Apodization of the spectral response of fiber Bragg gratings using a phase mask with variable diffraction efficiency. Electron. Lett., 1995, 31(3):222~223
[4] Cole M J, Loh W H, Laming R I et al.. Moving fiber/phase mask-scanning beam technique for enhanced flexibility in producing fiber gratings with uniform phase-mask. Electron. Lett., 1995, 31(17):1488~1490
[5] Sipe J E, Eggleton B J, Strasser T A. Dispersion characteristics of nonuniform Bragg gratings: Implications for WDM communication systems. Opt. Commun., 1998, 152(4):269~274
[6] Dowling E M, MacFarlane D L. Lightwave lattice filters for optically multiplexed communication systems. IEEE J. Lightwave. Technol., 1994, 12(3):471~486
[7] Robinson E A. Multichannel Time Series Analysis with Digital Computer Programs. San Francisco, CA: Holden-Day, 1967
[9] Oppenheim A V, Schafer R W. Digital Signal Processing. Englewood Cliffs, NJ:Prentice-Hall, 1975
[10] Poladian L. Droup-delay reconstruction for fiber Bragg gratings in reflection and transmission. Opt. Lett., 1997, 22(20):1571~1573
[11] Cross P S, Kogelnik H. Sidelope suppression in corrugated-waveguide filters. Opt. Lett., 1977, 1(1):43~45
[12] Yamada M, Sakuda K. Analysis of almost-period distributed feedback slab waveguide via a fundamental matrix approach. Appl. Opt., 1987, 26(16):3474~3478
[15] Lens G, Eggleton B J, Madsen C K et al.. Optimal dispersion of optical filters for WDM systems. IEEE Photon. Technol. Lett., 1998, 10(4):567~569