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件数:821件
[2008]
241.[] 160 Gbit/s-200 km field transmission experiment using a time-domain optical Fourier transformation technique with a large PMD.[European Conference on Optical Communication (ECOC 2008),(2008)]M. Okazaki, P. Guan, T. Hirooka, M. Nakazawa, and T. Miyazaki
242.[] 320 Gbit/s single-polarization DPSK transmission over 525 km using time-domain optical Fourier transformation.[European Conference on Optical Communication (ECOC 2008),(2008)]T. Hirooka, M. Okazaki, P. Guan, and M. Nakazawa
243.[] Challenges to FDM-QAM coherent transmission with ultrahigh spectral efficiency.[European Conference on Optical Communication (ECOC 2008),(2008)]M. Nakazawa
244.[] Frequency division multiplexed 1 Gsymbol/s, 64 QAM coherent optical transmission with a spectral efficiency of 8.6 bit/s/Hz.[European Conference on Optical Communication (ECOC 2008),(2008)]M. Yoshida, H. Goto, T. Omiya, K. Kasai, and M. Nakazawa
245.[] Novel modulation format and high spectral efficiency technology for coherent optical communication systems.[IEEE/LEOS Summer Topicals 2008,(2008)]M. Nakazawa
246.[] Optimized amplification of femtosecond optical pulses by dispersion management for octave-spanning optical frequency comb generation.[Opt. Comm.,281(17),(2008),4484-4487]Y. Nakajima, H. Inaba, F. Hong, A. Onae, K. Minoshima, T. Kobayashi, M. Nakazawa, and H. Matsumoto
247.[] Polarization and frequency division multiplexed 1Gsymbol/s, 64 QAM coherent optical transmission with 8.6bit/s/Hz spectral efficiency over 160km.[IEICE Electron. Express,5(18),(2008),776-781]H. Goto, M. Yoshida, T. Omiya, K. Kasai, and M. Nakazawa
248.[] A l/4-shifted distributed-feedback laser diode with a fiber ring cavity configuration having an OSNR of 85 dB and a linewidth of 7 kHz.[IEEE Photon. Technol. Lett.,20(18),(2008),1578-1580]H. T. Quynhanh, A. Suzuki, M. Yoshida, T. Hirooka, and M. Nakazawa
249.[] A straight-line 160-Gb/s DPSK transmission over 1000 km with time-domain optical Fourier transformation.[IEEE Photon. Technol. Lett.,20(13),(2008),1094-1096]T. Hirooka, M. Okazaki, and M. Nakazawa
250.[] Optical communication going ahead of wireless communication in terms of spectral efficiency.[Workshop on High Spectral Density Optical Communication for New Generation Network,(2008)]M. Nakazawa
251.[] Bright and dark 40 GHz parabolic pulse generation using a picosecond optical pulse train and an arrayed waveguide grating.[Opt. Lett.,33(10),(2008),1102-1104]T. Hirooka, M. Nakazawa, and K. Okamoto
252.[] Scheme for independently stabilizing the repetition rate and optical frequency of a laser using a regenerative mode-locking technique.[Opt. Lett.,33(10),(2008),1059-1061]M. Nakazawa and M. Yoshida
253.[] 1.5 mm passively mode-locked femtosecond fiber laser with CNT-doped polymer saturable absorber.[International Laser, Light-Wave and Microwave Conference (ILLMC 2008),(2008)]F. Shohda, T. Shirato, M. Nakazawa, K. Komatsu, and T. Kaino
254.[] Ultrahigh-speed and coherent optical transmission technologies.[New Breeze,20(2), (2008), 16-19]M. Nakazawa
255.[] 1.5 μm femtsecond fiber laser with CNT-doped polymer saturable absorber.[The 8th International Mini-Symposium on Advanced Organic Photonics (ISAOP-8),(2008),I-11-]M. Nakazawa
256.[] Polarization-multiplexed 1 Gsymbol/s, 128 QAM (14 Gbit/s) coherent optical transmission over 160 km using a 1.4 GHz Nyquist filter.[Optical Fiber Communication Conference (OFC2008),(2008),JThA45-]H. Goto, K. Kasai, M. Yoshida, and M. Nakazawa
257.[] All-optical 40 GHz time-domain Fourier transformation using XPM with a dark parabolic pulse.[Optical Fiber Communication Conference (OFC2008),(2008),OThG5-]T. Hirooka and M. Nakazawa
258.[] 40 GHz bright and dark parabolic pulse generation using a picosecond optical pulse source and a 64-channel AWG,.[Optical Fiber Communication Conference (OFC2008),(2008),OTuC6-]T. Hirooka, M. Nakazawa, and K. Okamoto
259.[] 64 and 128 coherent QAM optical transmission over 150 km using frequency-stabilized laser and heterodyne PLL detection.[Opt. Express,16(2),(2008),829-840]M. Yoshida, H. Goto, K. Kasai, and M. Nakazawa
260.[] The use of a Nyquist filter for reducing an optical signal bandwidth in a coherent QAM optical transmission.[IEICE Electron. Express,5(1),(2008),6-10]K. Kasai, J. Hongo, H. Goto, M. Yoshida, and M. Nakazawa
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