Switching Characteristic of Semiconductor Optical Amplifier Based Demultiplexer with Symmetric Mach-Zehnder Interferometer Configuration

[in Chinese]; [in Chinese]

[1] Nakaza M, Yoshida E, Yamamoto T et al.. TDM single channel 640 Gbit/s transmission experiment over 60 km using a 400 fs pulse train and a walk-off free, dispersion-flattened nonlinear optical loop mirror. Electron. Lett., 1998,34(9):907～908

[2] Fischer S, Dulk M, Gamper E et al.. Optical 3R regenerator for 40 Gbit/s networks. Electron. Lett., 1999, 35(23):2047～2049

[3] Penty R. Optical TDM makes faster networks possible. Lightwave, 2000,17(8):142～143

[4] Kang K I, Glesk I, Sokoloff J P et al.. Demonstration of all-optical Mach-Zehnder demultiplexer. Electron. Lett., 1995, 31(9):749～750

[5] Diez S, Schubert C, Ludwig R et al.. 160 Gbps all-optical demultiplexer using gain-transparent SOA Mach-Zehnder Interferometer. Electon. Lett., 2000, 36(17):1484～1486

[6] Tang J M, Spencer P S, Shore K A. Influence of fast gain depletion on the dynamic response of TOAD′s. J. Lightwave Technol., 1998, 16(1):86～91

[7] Kane M G, Glesk I, Scokoloff J P et al.. Asymmetric optical loop mirror: Analysis of an all-optical switch. Appl. Opt., 1994, 33(29):6833～6842

[8] Toliver P, Runser R J, Glesk I et al.. Comparison of three nonlinear interferometric optical switch geometries. Opt. Commun., 2000, 175(4～6):365～373

[9] Kang K I, Chang T G, Glesk I et al.. Comparison of Sagnac and Mach-Zehnder ultrafast all-optical interferometric switches based on a semiconductor resonant optical nonlinearity. Appl. Opt., 1996, 35(3):417～426

[10] Pagrawal G, Olsson N A. Self-pulse modulation and spectral broadening of optical pulses in semiconductor laser amplifiers. IEEE J. Quantum Electron., 1989, QE-25(11):2297～2306

[11] Mecozzi A, Mork J. Saturation induced by picosecond pulses in semiconductor optical amplifiers. J. Opt. Soc. Am. (B), 1997, 14(7):761～770

[12] Hong M Y, Chang Y H, Dienes A et al.. Femtosecond self-and cross-phase modulation in semiconductor laser amplifiers. IEEE J. Selected Topics in Quant. Electron., 1996, 2(3):523～539

[13] Gueorgui Toptchiyski, Stefan Kindt, Klaus Petermann et al.. Time-domain modeling of semiconductor optical amplifiers for OTDM Applications. J. Lightwave Technol., 1999, 17(12):2577～2563

[14] Kang K I, Chang T G, Glesk I et al.. Demonstration of ultrafast, all optical, low control energy, single wavelength, polarization independent, cascadable, and integratable switch. Appl. Phys. Lett., 1995, 67(5):605～607

[15] Hong M Y, Chang Y H, Dienes A et al.. Subpicosecond pulse Amplification in semiconductor laser amplifiers: Theory and experiment. IEEE J. Quant. Electron., 1994, QE-30(4):1122～1131

[16] Tang J M, Spencer P S, Rees P et al.. Enhanced TOAD performance by negative frequency-detunned signal and control picosecond optical pulses. IEEE J. Quant. Electron., 2000, QE-36(5):574～581

[17] Durhuus T, Mikkelsen B, Stubjaer K E. Detailed model for semiconductor optical amplifiers and their crosstalk and intermodulation distortion. J. Lightwave Technol., 1992, 10(8):1056～1065

CLP Journals