D-Index & Metrics Best Publications
Masatoshi Saruwatari

Masatoshi Saruwatari

National Defense Academy of Japan
Japan

Electronics and Electrical Engineering
Japan
2023

D-Index & Metrics D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines.

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Electronics and Electrical Engineering D-index 42 Citations 5,176 155 World Ranking 2580 National Ranking 94

Research.com Recognitions

Awards & Achievements

2023 - Research.com Electronics and Electrical Engineering in Japan Leader Award

Overview

What is he best known for?

The fields of study Masatoshi Saruwatari is best known for:

  • Laser
  • Optical fiber
  • Wavelength-division multiplexing

His Wavelength-division multiplexing study is focused on Optical performance monitoring, Terabit and Channel spacing. His Optics study frequently draws connections to adjacent fields such as Picosecond. His research on Optoelectronics often connects related areas such as Optical performance monitoring. He merges many fields, such as Laser and Photonic-crystal fiber, in his writings. He performs multidisciplinary studies into Photonic-crystal fiber and Supercontinuum in his work. By researching both Telecommunications and Jitter, Masatoshi Saruwatari produces research that crosses academic boundaries. His research ties Channel spacing and Wavelength together. Masatoshi Saruwatari merges Optical fiber with Optical communication in his research. His Optical communication study frequently draws connections between related disciplines such as Optoelectronics.

His most cited work include:

  • 1 Tbit/s (100 Gbit/s × 10 channel) OTDM/WDM transmission using a single supercontinuum WDM source (174 citations)
  • All-optical signal processing for terabit/second optical transmission (172 citations)
  • More than 100-wavelength-channel picosecond optical pulse generation from single laser source using supercontinuum in optical fibres (163 citations)

What are the main themes of his work throughout his whole career to date

Borrowing concepts from Acoustics, Masatoshi Saruwatari weaves in ideas under Optics. His work often combines Acoustics and Optics studies. Laser and Supercontinuum are two areas of study in which Masatoshi Saruwatari engages in interdisciplinary research. Optoelectronics connects with themes related to Optical communication in his study. Optical communication is closely attributed to Optoelectronics in his study. In his work, Masatoshi Saruwatari performs multidisciplinary research in Telecommunications and Transmission (telecommunications). Masatoshi Saruwatari connects Transmission (telecommunications) with Telecommunications in his study. His studies link Nonlinear system with Quantum mechanics. His Wavelength-division multiplexing research extends to Wavelength, which is thematically connected.

Masatoshi Saruwatari most often published in these fields:

  • Optics (98.18%)
  • Laser (75.45%)
  • Optoelectronics (72.73%)

What were the highlights of his more recent work (between 1996-2016)?

  • Optics (87.50%)
  • Wavelength (62.50%)
  • Laser (62.50%)

In recent works Masatoshi Saruwatari was focusing on the following fields of study:

His studies link Chirp with Optics. Masatoshi Saruwatari performs multidisciplinary studies into Chirp and Laser in his work. His work on Laser is being expanded to include thematically relevant topics such as Pulse wave. His study in Optical communications repeater extends to Wavelength with its themes. Optical communications repeater is closely attributed to Optoelectronics in his research. Masatoshi Saruwatari combines topics linked to Terabit with his work on Optoelectronics. His Terabit study frequently draws parallels with other fields, such as Wavelength. His Quantum mechanics study frequently intersects with other fields, such as Spectrum (functional analysis). While working in this field, he studies both Telecommunications and Transmission (telecommunications).

Between 1996 and 2016, his most popular works were:

  • All-optical signal processing for terabit/second optical transmission (172 citations)
  • Flatly broadened supercontinuum spectrum generated in a dispersion decreasing fibre with convex dispersion profile (158 citations)
  • High-repetition-rate optical pulse generation by using chirped optical pulses (65 citations)

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

1 Tbit/s (100 Gbit/s × 10 channel) OTDM/WDM transmission using a single supercontinuum WDM source

T. Morioka;H. Takara;S. Kawanishi;O. Kamatani.
Electronics Letters (1996)

251 Citations

Flatly broadened supercontinuum spectrum generated in a dispersion decreasing fibre with convex dispersion profile

K. Mori;H. Takara;S. Kawanishi;M. Saruwatari.
Electronics Letters (1997)

250 Citations

Semiconductor laser to single-mode fiber coupler.

Masatoshi Saruwatari;Kiyoshi Nawata.
Applied Optics (1979)

249 Citations

Wavelength-tunable single-frequency and single-polarisation Er-doped fibre ring-laser with 1.4 kHz linewidth

K. Iwatsuki;H. Okamura;M. Saruwatari.
Electronics Letters (1990)

162 Citations

Transform-limited, femtosecond WDM pulse generation by spectral filtering of gigahertz supercontinuum

T. Morioka;S. Kawanishi;K. Mori;M. Saruwatari.
Electronics Letters (1994)

139 Citations

200 Gbit/s, 100 km time-division-multiplexed optical transmission using supercontinuum pulses with prescaled PLL timing extraction and all-optical demultiplexing

S. Kawanishi;H. Takara;T. Morioka;O. Kamatani.
Electronics Letters (1995)

127 Citations

Stabilisation of a modelocked Er-doped fibre laser by suppressing the relaxation oscillation frequency component

H. Takara;S. Kawanishi;M. Saruwatari.
Electronics Letters (1995)

123 Citations

Generation of highly stable 20 GHz transform-limited optical pulses from actively mode-locked Er3+-doped fibre lasers with an all-polarisation maintaining ring cavity

H. Takara;S. Kawanishi;M. Saruwatari;K. Noguchi.
Electronics Letters (1992)

121 Citations

100 Gbit/s optical signal eye-diagram measurement with optical sampling using organic nonlinear optical crystal

H. Takara;S. Kawanishi;A. Yokoo;S. Tomaru.
Electronics Letters (1996)

120 Citations

100 Gbit/s optical waveform measurement with 0.6 ps resolution optical sampling using subpicosecond supercontinuum pulses

Hidehiko Takara;Satoki Kawanishi;T. Morioka;Kazuo Mori.
Electronics Letters (1994)

118 Citations

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Frequent Co-Authors

Hidehiko Takara

Hidehiko Takara

NTT (Japan)

Toshio Morioka

Toshio Morioka

Technical University of Denmark

Satoki Kawanishi

Satoki Kawanishi

NTT (Japan)

Terutoshi Kanamori
Masataka Nakazawa

Masataka Nakazawa

Tohoku University

Masaki Asobe

Masaki Asobe

Tokai University

External Links

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Govind P. Agrawal

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Mohammed N. Islam

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Hans-Georg Weber

Fraunhofer Institute for Telecommunications, Heinrich Hertz Institute

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Satoki Kawanishi

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R. Ludwig

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Alan E. Willner

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Zabih Ghassemlooy

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