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件数:821件
[1995]
561.[] Generation of a pseudorandom dark soliton data train and its coherent detection by one-bit-shifting with a Mach-Zehnder interferometer.[Electron. Lett.,31,(1995),1084-1085]NAKAZAWA Masataka
562.[] 10Gbit/s pseudorandom dark soliton data transmission over 1200 km.[Electron. Lett.,31,(1995),1076-1077]NAKAZAWA Masataka
563.[] Femtosecond pulse generation over 82 nm wavelength span from passively modelocked erbium-doped fiber laser.[Electron. Lett.,31,(1995),1062-1063]NAKAZAWA Masataka
564.[] Construction of Dispersion-Allocated Soliton Transmission Line Using Conventional Dispersion-Shifted Nonsoliton Fibers.[Jpn. J. Appl. Phys.,34,(1995),L681-683]NAKAZAWA Masataka
565.[] Field demonstration of soliton transmission at 10 Gbit/s over 2000 km in Tokyo metropolitan optical loop network.[Electron. Lett.,31,(1995),992-993]NAKAZAWA Masataka
566.[] Optical demultiplexing and routing of a TDM signal by using four-wave mixing and a novel wavelength router with optical circulators and fiber gratings.[Electron. Lett.,31,(1995),744-745]NAKAZAWA Masataka
567.[] 160 Gbit/s soliton data transmission over 200km.[Electron. Lett.,31,(1995),565-566]NAKAZAWA Masataka
568.[] 20 GHz, 1.8 ps Pulse Generation from a Regeneratively Mode-Locked Erbium-Doped Fibre Laser and its Femtosecond Pulse Compression.[Electron. Lett.,31,(1995),377-378]NAKAZAWA Masataka
569.[] In-line fiber grating-type optical bandpass filter tuned by applying lateral stress.[Jpn. J. Appl. Phys.,34,(1995),L306-308]NAKAZAWA Masataka
570.[] An in-line optical band pass filter with fiber gratings and an optical circulator and its application to pulse compression.[Jpn. J. Appl. Phys.,34,(1995),L230-L232]NAKAZAWA Masataka
571.[] Optical soliton communication in a positively and negatively dispersion-allocated optical fibre transmission line.[Electron. Lett.,31,(1995),216-217]NAKAZAWA Masataka
572.[] Polarization Dependence of Soliton Interactions in Femtosecond Soliton Transmission.[IEICE Trans. Electron.,E78-C,(1995),28-37]NAKAZAWA Masataka
[1994]
573.[] Gain and Noise Characteristics of a 48 km-Long, Dispersion-Shifted, Distributed Erbium-Doped Fiber Amplifier with High Power Transmission Signals.[20th European Conference on Optical Communication, ECOC'94,(1994),963-967]Y. Kimura and M. Nakazawa
574.[] Single-polarization 80 Gbit/s soliton data transmission over 500 km with unequal amplitude solitons for timing clock extraction.[20th European Conference on Optical Communication, ECOC'94,(1994),41-44]M. Nakazawa, E. Yoshida, E. Yamada, K. Suzuki, T. Kitoh, and M. Kawachi
575.[] Recent progress in optical soliton communication(招待講演).[Optical Amplifiers and their Applications, OA&A'94,(1994),TuC1-1]M. Nakazawa
576.[] 52 Femtosecond Pulse Generation using an Erbium-Doped Fiber Laser with a Pulse Compression Technique.[5th Optoelectronics Conference, OEC'94,(1994),13B1-2]E. Yoshida, Y. Kimura, and M. Nakazawa,
577.[] 20 Gbit/s-3000 km Straight-Line Soliton Transmission Beyond Gordon-Haus Limit.[5th Optoelectronics Conference, OEC'94,(1994),PDI-3]M. Nakazawa, K. Suzuki, H. Kubota, E. Yamada, and Y. Kimura
578.[] Ultra-high Speed Optical Soliton Communication(招待講演).[International Workshop on Femtosecond Technology, FST'94,(1994)]M. Nakazawa
579.[] Possibility of sub-Terabit soliton transmission using soliton control.[Optical Fiber Communication, OFC'94,(1994),WM1-]H. Kubota and M. Nakazawa
580.[] Generation of 1.2 ps, 10 GHz pulse train from all-optically modelocked, erbium fibre ring laser with active nonlinear polarization rotation.[Electron. Lett.,30,(1994),1764-1765]NAKAZAWA Masataka
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