著書論文等- 中沢 正隆 -
表示方法: 表示形式: 表示順:
[]:著書 []:論文 []:総説・解説記事
件数:821件
[2016]
41.[] A 295 mW output, HCN frequency-stabilized CW erbium silica fiber laser with a linewidth of 5 kHz and a RIN of -120 dB/Hz.[Optical Fiber Communication Conference (OFC2016),(2016),W3E.1-]K. Kasai, M. Yoshida, and M. Nakazawa
42.[] Mode coupling measurement at a splice point between few-mode fibers using a synchronous multi-channel OTDR.[Optical Fiber Communication Conference (OFC2016),(2016),Th1J.4-]M. Yoshida, T. Hirooka, and M. Nakazawa
43.[] 295 mW output, frequency-stabilized erbium silica fiber laser with a linewidth of 5 kHz and a RIN of −120 dB/Hz.[Opt. Express,24(3),(2016),2737-2748]K. Kasai, M. Yoshida, and M. Nakazawa
44.[] Ultra-multilevel digital coherent optical transmission employing a narrow linewidth laser, an optical phase-locked loop circuit and injection-locking scheme.[The Review of Laser Engineering (in Japanese),44(2),(2016),106-110]K. Kasai and M. Nakazawa
45.[] Optical and wireless-integrated next-generation access network based on coherent technologies.[Photonics West 2016,(2016),9772-2-]T. Hirooka, M. Yoshida, K. Kasai, and M. Nakazawa
46.[] OH-free low loss single-mode fiber fabricated by slurry casting / rod-in-tube method.[IEICE Electron. Express,13(1),(2016),20151005-]T. Yajima, J. Yamamoto, Y. Kinoshita, F. Ishii, T. Hirooka, M. Yoshida, and M. Nakazawa
47.[] Single-channel 40 Gbit/s digital coherent QAM quantum noise stream cipher transmission over 480 km.[Opt. Express,24(1),(2016),652-661]M. Yoshida, T. Hirooka, K. Kasai, and M. Nakazawa
48.[] Single-channel 1.92 Tbit/s, 64 QAM coherent Nyquist orthogonal TDM transmission with a spectral efficiency of 10.6 bit/s/Hz.[J. Lightwave Technol,34(2),(2016),768-775]D. O. Otuya, K. Kasai, T. Hirooka, and M. Nakazawa
[2015]
49.[] Q-factor analysis of nonlinear impairments in ultrahigh-speed Nyquist pulse transmission.[Opt. Express,23(26),(2015),33484-33492]T. Hirooka and M. Nakazawa
50.[] First demonstration of digital coherent transmission in a deployed ROADM network with a 120 Gbit/s polarization-multiplexed 64 QAM signal.[IEICE Electron. Express,12(23),(2015),20150884-]T. Hirooka, K. Kasai, Y. Wang, M. Nakazawa, M. Shiraiwa, Y. Awaji, and N. Wada
51.[] QAM quantum noise stream cipher using digital coherent optical transmission.[Forty-Ninth Asilomar Conference on Signals, Systems and Computers,(2015),TP1-9-]M. Yoshida, T. Hirooka, K. Kasai, and M. Nakazawa
52.[] 448 Gbit/s, 32 Gbaud 128 QAM coherent transmission over 150 km with a potential spectral efficiency of 10.7 bit/s/Hz.[Opt. Express,23(22),(2015),28423-28429]K. Kasai, Y. Wang, D. O. Otuya, M. Yoshida, and M. Nakazawa
53.[] 80 Gbit/s, 256 QAM coherent transmission over 150 km with an injection-locked homodyne receiver.[Opt. Express,23(22),(2015),29174-29183]K. Kasai, Y. Wang, S. Beppu, M. Yoshida, and M. Nakazawa
54.[] 2.56 Tbit/s/ch (640 Gbaud) polarization-multiplexed DQPSK non-coherent Nyquist pulse transmission over 525 km.[Opt. Express,23(24),(2015),30801-30806]K. Harako, D. Suzuki, T. Hirooka, and M. Nakazawa
55.[] Real-time Adaptive 4-64 QAM, 20-60 Gbit/s Quantum Noise Stream Cipher Transmission over 320 km with FPGA-based Transmitter and Receiver.[European Conference on Optical Communication (ECOC2015),(2015),P.5.13-]M. Yoshida, T. Hirooka, K. Kasai, and M. Nakazawa
56.[] QAM Quantum Noise Stream Cipher Transmission with Extremely High Security.[European Conference on Optical Communication (ECOC2015),(2015),Th.2.5.1-]M. Nakazawa
57.[] Ultrafast Nyquist OTDM demultiplexing using optical Nyquist pulse sampling in an all-optical nonlinear switch.[Opt. Express,23(16),(2015),20858-20866]T. Hirooka, D. Seya, K. Harako, D. Suzuki, and M. Nakazawa
58.[] 1024 QAM, 7-core (60 Gbit/s x 7) fiber transmission over 55 km with an aggregate potential spectral efficiency of 109 bit/s/Hz.[Opt. Express,23(16),(2015),20760-20766]M. Yoshida, S. Beppu, K. Kasai, T. Hirooka, and M. Nakazawa
59.[] High-Speed, High Spectrally Efficient 64 QAMOrthogonal TDM Coherent Nyquist Pulse Transmission.[IEEE Summer Topicals 2015,(2015),MF1.3-]K. Kasai, D. O. Otuya, K. Harako, T. Hirooka and M. Nakazawa
60.[] Distributed mode-coupling measurements in MCF and FMF using a synchronous multi-channel OTDR.[International Symposium on Ultrafast Photonic Technologies/Extremely Advanced Transmission Technology (ISUPT/EXAT 2015),(2015),T1.2-]M. Nakazawa
Page: [prev] [1] [2] [3] [4] [5] [6] [7] [8] [9] [10] [11] [12] [13] [14] [15] [16] [17] [18] [19] [20] [21] [22] [23] [24] [25] [26] [27] [28] [29] [30] [31] [32] [33] [34] [35] [36] [37] [38] [39] [40] [41] [42] [next]
戻るこのページのトップへ
copyright(c)2005 Tohoku University