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件数:821件
[2016]
21.[] 1.55 μm hydrogen cyanide optical frequency-stabilized and 10 GHz repetition-rate-stabilized mode-locked fiber laser.[Opt. Express,24(21),(2016),24287-24296]M. Yoshida, K. Yoshida, K. Kasai, and M. Nakazawa,
22.[] Real-time 70 Gbit/s, 128 QAM Quantum Noise Stream Cipher Transmission over 100 km with Secret Keys Delivered by Continuous Variable Quantum Key Distribution System.[European Conference on Optical Communication (ECOC 2016),(2016),W.4.P1.SC5.59-]M. Nakazawa, M. Yoshida, T. Hirooka, K. Kasai, and T Hirano
23.[] 552 Gbit/s, 46 Gbaud, 64 QAM Coherent Transmission over 160 km with Simple LD-based Injection-locked Homodyne Detection.[European Conference on Optical Communication (ECOC 2016),(2016),W.4.P1.SC5.51-]K. Kasai, M. Yoshida, and M. Nakazawa
24.[] Single-channel 5.12 Tbit/s (1.28 Tbaud) DQPSK Transmission over 300 km Using Non-coherent Nyquist Pulses.[European Conference on Optical Communication (ECOC 2016),(2016),W.4.P1.SC5.49-]D. Suzuki, K. Harako, T. Hirooka, and M. Nakazawa,
25.[] Injection-locked Homodyne Detection System for Higher-order QAM Digital Coherent Transmission.[European Conference on Optical Communication (ECOC 2016),(2016),M1.C.3-]K. Kasai, M. Yoshida, T. Hirooka, and M. Nakazawa
26.[] 320 Gbit/s, 20 Gsymbol/s 256 QAM coherent transmission over 160 km by using injection-locked local oscillator.[Opt. Express,24(19),(2016),22088-22096]Y. Wang, K. Kasai, M. Yoshida, and M. Nakazawa
27.[] Roll-off factor dependence of Nyquist pulse transmission.[Opt. Express,24(19),(2016),21986-21994]K. Harako, D. Suzuki, T. Hirooka, and M. Nakazawa
28.[] A Non-Perturbative Mode-Locking Theory of the Nyquist Laser With a Dirichlet Kernel Solution.[IEEE J. Quantum Electron,52(8),(2016),1300113-]M. Nakazawa and T. Hirooka
29.[] A 1.55 µm, 271 fs and 1.07 µm, 294 fs simultaneously mode-locked Er- and Yb-doped fiber laser with a single SWNT/PVA saturable absorber.[IEICE Electron. Express,13(14),(2016),20160515-]M. Nakao, M. Yoshida, T. Hirooka, and M. Nakazawa
30.[] 320 Gbit/s, 256 QAM LD-based coherent transmission over 160 km with an injection-locked homodyne detection technique.[Opto-Electronics and Communications Conference (OECC 2016),(2016),ThB3-3-]Y. Wang, K. Kasai, M. Yoshida, and M. Nakazawa
31.[] 1024 QAM, 7-core fiber/multi-core EDFA transmission over 100 km with an aggregated spectral efficiency of 109 bit/s/Hz.[2016 Opto-Electronics and Communications Conference (OECC2016),(2016),MB2-5-]M. Yoshida, K. Kasai, T. Hirooka, and M. Nakazawa
32.[] Roll-off factor dependence of system performance in 1.28 Tbit/s/ch-525 km Nyquist pulse transmission.[Opto-Electronics and Communications Conference (OECC 2016),(2016),MB1-2-]K. Harako, D. Suzuki, T. Hirooka, and M. Nakazawa
33.[] Ultrahigh speed and high spectral efficiency transmission using optical Nyquist pulses.[Opto-Electronics and Communications Conference (OECC 2016),(2016),MB1-1-]M. Nakazawa
34.[] “Multi” is everywhere.[Conference on Lasers and Electro-Optics (CLEO 2016),(2016),plenary talk-]M. Nakazawa
35.[] A mode locking theory of the Nyquist laser.[Conference on Lasers and Electro-Optics (CLEO 2016),(2016),JTu5A.107-]M. Nakazawa and T. Hirooka
36.[] A 440 fs, 9.2 GHz hybrid mode-locked erbium fiber laser with a combination of higher-order solitons and a SESAM saturable absorber.[Conference on Lasers and Electro-Optics (CLEO 2016),(2016),STu1P.4-]T. Hirooka, K. Tokuhira, M. Yoshida, and M. Nakazawa
37.[] A 0.95 ps, 10 GHz, 60 mW HCN frequency-stabilized and mode-locked fiber laser at 1.55 μm.[Conference on Lasers and Electro-Optics (CLEO 2016),(2016),STu1P.3-]M. Yoshida, K. Yoshida, K. Kasai, and M. Nakazawa
38.[] An 8 kHz linewidth, 50 mW output wavelength tunable DFB LD array over the C-band with self optical feedback.[Conference on Lasers and Electro-Optics (CLEO 2016),(2016),SW4M.2-]K. Kasai, M. Nakazawa, M. Ishikawa, and H. Ishii
39.[] Mode locking theory of the Nyquist laser.[Opt. Express,24(5),(2016),4981-4995]M. Nakazawa and T. Hirooka
40.[] Fused type fan-out device for multi-core fiber based on bundled structure.[Optical Fiber Communication Conference (OFC2016),(2016),Tu3I.2-]M. Yoshida, T. Hirooka, and M. Nakazawa
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