1.28 Tbit/s–70 km OTDM transmission using third-and fourth-order simultaneous dispersion compensation with a phase modulator M Nakazawa, T Yamamoto, KR Tamura Electronics letters 36 (24), 2027-2029, 2000 | 519 | 2000 |
10 Gbit/s soliton data transmission over one million kilometres M Nakazawa, E Yamada, H Kubota, K Suzuki Electronics Letters 27 (14), 1270-1272, 1991 | 448 | 1991 |
Generation of a 170fs, 10GHz transform-limited pulse train at 1.55 μm using a dispersion-decreasing, erbium-doped active soliton compressor M Nakazawa, H Kubota, Y Kimura Electronics Letters 30 (24), 2038-2040, 1994 | 438 | 1994 |
10.16-Peta-B/s dense SDM/WDM transmission over 6-mode 19-core fiber across the C+ L band D Soma, Y Wakayama, S Beppu, S Sumita, T Tsuritani, T Hayashi, ... Journal of Lightwave Technology 36 (6), 1362-1368, 2018 | 387 | 2018 |
Ultrastable harmonically and regeneratively modelocked polarisation-maintaining erbium fibre ring laser M Nakazawa, E Yoshida, Y Kimura Electronics Letters 30 (19), 1603-1605, 1994 | 330 | 1994 |
Parabolic pulse generation by use of a dispersion-decreasing fiber with normal group-velocity dispersion T Hirooka, M Nakazawa Optics letters 29 (5), 498-500, 2004 | 321 | 2004 |
Ultrahigh-speed “orthogonal” TDM transmission with an optical Nyquist pulse train M Nakazawa, T Hirooka, P Ruan, P Guan Optics express 20 (2), 1129-1140, 2012 | 311 | 2012 |
Efficient Er3+‐doped optical fiber amplifier pumped by a 1.48 μm InGaAsP laser diode M Nakazawa, Y Kimura, K Suzuki Applied physics letters 54 (4), 295-297, 1989 | 309 | 1989 |
Long-term measurement of optical frequencies using a simple, robust and low-noise fiber based frequency comb H Inaba, Y Daimon, FL Hong, A Onae, K Minoshima, TR Schibli, ... Optics express 14 (12), 5223-5231, 2006 | 245 | 2006 |
Rayleigh backscattering theory for single-mode optical fibers M Nakazawa JOSA 73 (9), 1175-1180, 1983 | 229 | 1983 |
TDM single channel 1640 Gbit/s transmission experiment over 60 km using a 400 fs pulse train and a walk-off free, dispersion-flattened nonlinear optical loop mirror M Nakazawa, E Yoshida, T Yamamoto, E Yamada, A Sahara Optical Fiber Communication Conference, PD14, 1998 | 200 | 1998 |
Supermode noise suppression in a harmonically modelocked fibre laser by selfphase modulation and spectral filtering M Nakazawa, K Tamura, E Yoshida Electronics Letters 32 (5), 461-463, 1996 | 200 | 1996 |
Pulse compression by nonlinear pulse evolution with reduced optical wave breaking in erbium-doped fiber amplifiers K Tamura, M Nakazawa Optics letters 21 (1), 68-70, 1996 | 197 | 1996 |
80~ 200 GHz erbium doped fibre laser using a rational harmonic mode-locking technique E Yoshida, M Nakazawa Electronics Letters 32 (15), 1370-1372, 1996 | 193 | 1996 |
Experimental demonstration of soliton data transmission over unlimited distances with soliton control in time and frequency domains M Nakazawa, K Suzuki, E Yamada, H Kubota, Y Kimura, M Takaya Electronics Letters 29 (9), 729-730, 1993 | 175 | 1993 |
Disaster-resilient networking: a new vision based on movable and deployable resource units T Sakano, ZM Fadlullah, T Ngo, H Nishiyama, M Nakazawa, F Adachi, ... IEEE network 27 (4), 40-46, 2013 | 174 | 2013 |
Optical soliton communication in a positively and negatively dispersion-allocated optical fibre transmission line M Nakazawa, H Kubota Electronics Letters 31 (3), 216-217, 1995 | 173 | 1995 |
Fundamentals of stable continuum generation at high repetition rates KR Tamura, H Kuhota, M Nakazawa IEEE journal of quantum electronics 36 (7), 773-779, 2000 | 163 | 2000 |
Low threshold, 290 fs erbium‐doped fiber laser with a nonlinear amplifying loop mirror pumped by InGaAsP laser diodes M Nakazawa, E Yoshida, Y Kimura Applied physics letters 59 (17), 2073-2075, 1991 | 162 | 1991 |
Coherence degradation in the process of supercontinuum generation in an optical fiber M Nakazawa, K Tamura, H Kubota, E Yoshida Optical fiber technology 4 (2), 215-223, 1998 | 157 | 1998 |