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Yoshinari Awaji

D-Index & Metrics

Electronics and Electrical Engineering

D-Index
35
Citations
4616
World Ranking
5616
National Ranking
238

Overview

Yoshinari Awaji is affiliated with the National Institute of Information and Communications Technology in Japan. Their research primarily focuses on engineering and computer science, with significant contributions in electrical and electronic engineering as well as computer networks and communications.

Their work includes a wide range of topics within optical and photonic communication technologies. Key research areas covered by Awaji include:

  • Optical Network Technologies
  • Advanced Photonic Communication Systems
  • Advanced Optical Network Technologies
  • Photonic and Optical Devices
  • Semiconductor Lasers and Optical Devices
  • Software-Defined Networks and 5G
  • Cloud Computing and Resource Management

Awaji has contributed frequently to major publication venues, often appearing in:

  • Journal of Lightwave Technology
  • Journal of Optical Communications and Networking
  • Optical Fiber Communication Conference (OFC) 2022
  • Conference on Lasers and Electro-Optics
  • Optics Express

Frequent collaborators include:

  • Benjamin J. Puttnam
  • Georg Rademacher
  • Ruben S. Luís
  • Hideaki Furukawa
  • Sugang Xu

Some of their recent publications are:

  • "Peta-bit-per-second optical communications system using a standard cladding diameter 15-mode fiber", 2021, Nature Communications
  • "Wavelength Division Multiplexing of 194 Continuous Variable Quantum Key Distribution Channels", 2020, Journal of Lightwave Technology
  • "0.61 Pb/s S, C, and L-Band Transmission in a 125μm Diameter 4-Core Fiber Using a Single Wideband Comb Source", 2020, Journal of Lightwave Technology
  • "A Comparative Study of Few-Mode Fiber and Coupled-Core Multi-Core Fiber Transmission", 2021, Journal of Lightwave Technology
  • "Joint Progressive Network and Datacenter Recovery After Large-Scale Disasters", 2020, IEEE Transactions on Network and Service Management

Awaji has also authored a book titled Space-Division Multiplexing in Optical Communication Systems, published by Springer Nature in 2022.

Best Publications

  • 19-core fiber transmission of 19×100×172-Gb/s SDM-WDM-PDM-QPSK signals at 305Tb/s

    Jun Sakaguchi;Benjamin J. Puttnam;Werner Klaus;Yoshinari Awaji

  • 109-Tb/s (7×97×172-Gb/s SDM/WDM/PDM) QPSK transmission through 16.8-km homogeneous multi-core fiber

    Jun Sakaguchi;Yoshinari Awaji;Naoya Wada;Atsushi Kanno

  • Wavelength division multiplexing of continuous variable quantum key distribution and 18.3 Tbit/s data channels

    Tobias A. Eriksson;Takuya Hirano;Benjamin J. Puttnam;Georg Rademacher

  • Peta-bit-per-second optical communications system using a standard cladding diameter 15-mode fiber.

    Georg Rademacher;Benjamin J. Puttnam;Ruben S. Luís;Tobias A. Eriksson

  • 19-core MCF transmission system using EDFA with shared core pumping coupled via free-space optics

    Jun Sakaguchi;Werner Klaus;Benjamin J Puttnam;José Manuel Delgado Mendinueta

  • 19-core MCF Transmission System using EDFA with Shared Core Pumping Coupled in Free-space Optics

    J. Sakaguchi;W. Klaus;B. J. Puttnam;J-M. D. Mendinueta

  • Time and Modulation Frequency Dependence of Crosstalk in Homogeneous Multi-Core Fibers

    Ruben S. Luis;Benjamin J. Puttnam;Adolfo V. T. Cartaxo;Werner Klaus

  • Large Spatial Channel (36-Core × 3 mode) Heterogeneous Few-Mode Multicore Fiber

    Jun Sakaguchi;Werner Klaus;Jose Manuel Delgado Mendinueta;Benjamin James Puttnam

  • Crosstalk dynamics in multi-core fibers.

    Georg Rademacher;Ruben S. Luís;Benjamin J. Puttnam;Yoshinari Awaji

  • Long-Haul Transmission Over Few-Mode Fibers With Space-Division Multiplexing

    Georg Rademacher;Roland Ryf;Nicolas K. Fontaine;Haoshuo Chen

  • 10.66 Peta-Bit/s Transmission over a 38-Core-Three-Mode Fiber

    Georg Rademacher;Benjamin J. Puttnam;Ruben S. Luis;Jun Sakaguchi

  • Advanced space division multiplexing technologies for optical networks [Invited]

    Werner Klaus;Benjamin J. Puttnam;Ruben S. Luis;Jun Sakaguchi

  • High Capacity Transmission Systems Using Homogeneous Multi-Core Fibers

    Benjamin J. Puttnam;Ruben S. Luis;Erik Agrell;Georg Rademacher

  • High Capacity Transmission With Few-Mode Fibers

    Georg Rademacher;Ruben S. Luis;Benjamin J. Puttnam;Tobias A. Eriksson

  • High-capacity self-homodyne PDM-WDM-SDM transmission in a 19-core fiber

    Benjamin J. Puttnam;Ruben Luis;José Manuel Delgado-Mendinueta;Jun Sakaguchi

  • Self-Homodyne Detection in Optical Communication Systems

    Benjamin J. Puttnam;Ruben S. Luís;José Manuel Delgado Mendinueta;Jun Sakaguchi

  • 1.2 Pb/s Throughput Transmission Using a 160 $\mu$ m Cladding, 4-Core, 3-Mode Fiber

    Ruben S. Luís;Georg Rademacher;Benjamin J. Puttnam;Tobias A. Eriksson

  • Wavelength Division Multiplexing of 194 Continuous Variable Quantum Key Distribution Channels

    Tobias A. Eriksson;Ruben S. Luis;Benjamin J. Puttnam;Georg Rademacher

  • High-capacity transmission over multi-core fibers

    Yoshinari Awaji;Jun Sakaguchi;Benjamin J. Puttnam;Ruben S. Luís

  • Modulation formats for multi-core fiber transmission

    Benjamin Puttnam;Tobias Eriksson;J.M. Delgado Mendinueta;R. S. Luis

  • Investigating self-homodyne coherent detection in a 19 channel space-division-multiplexed transmission link.

    Benjamin J. Puttnam;Jun Sakaguchi;José Manuel Delgado Mendinueta;Werner Klaus

  • Comparing inter-core skew fluctuations in multi-core and single-core fibers

    Ruben S. Luis;Benjamin J. Puttnam;Jose-Manuel Delgado Mendinueta;Werner Klaus

  • Dispersion Impact on the Crosstalk Amplitude Response of Homogeneous Multi-Core Fibers

    Adolfo V. T. Cartaxo;Ruben S. Luis;Benjamin J. Puttnam;Tetsuya Hayashi

Frequent Co-Authors

Naoya Wada
Naoya Wada National Institute of Information and Communications Technology
Tetsuya Kawanishi
Tetsuya Kawanishi Waseda University
Atsushi Kanno
Atsushi Kanno National Institute of Information and Communications Technology
Takehiro Tsuritani
Takehiro Tsuritani Furukawa Electric (United Kingdom)
Roland Ryf
Roland Ryf Nokia (United States)
Ken-ichi Kitayama
Ken-ichi Kitayama Osaka University
Nicolas K. Fontaine
Nicolas K. Fontaine Nokia (United States)
Erik Agrell
Erik Agrell Chalmers University of Technology
Biswanath Mukherjee
Biswanath Mukherjee University of California, Davis
Rene-Jean Essiambre
Rene-Jean Essiambre Nokia (United States)

External Links

Personal website of Yoshinari Awaji

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Best Scientists Citing Yoshinari Awaji

Naoya Wada

Naoya Wada

National Institute of Information and Communications Technology

Publications: 64

Nicolas K. Fontaine

Nicolas K. Fontaine

Nokia (United States)

Publications: 23

Roland Ryf

Roland Ryf

Nokia (United States)

Publications: 22

Yutaka Miyamoto

Yutaka Miyamoto

Harvard University

Publications: 22

David J. Richardson

David J. Richardson

Microsoft (United States)

Publications: 22

Kunimasa Saitoh

Kunimasa Saitoh

Hokkaido University

Publications: 20

Erik Agrell

Erik Agrell

Chalmers University of Technology

Publications: 19

Kazuhide Nakajima

Kazuhide Nakajima

NTT (Japan)

Publications: 19

Toshio Morioka

Toshio Morioka

Technical University of Denmark

Publications: 16

Songnian Fu

Songnian Fu

Huazhong University of Science and Technology

Publications: 16

Tetsuya Kawanishi

Tetsuya Kawanishi

Waseda University

Publications: 16

Takehiro Tsuritani

Takehiro Tsuritani

Furukawa Electric (United Kingdom)

Publications: 15

Dimitra Simeonidou

Dimitra Simeonidou

University of Bristol

Publications: 15

Shoichiro Matsuo

Shoichiro Matsuo

Fujikura (Japan)

Publications: 15

Peter J. Winzer

Peter J. Winzer

Nokia (United States)

Publications: 14

Katsuhiro Takenaga

Katsuhiro Takenaga

Fujikura (United States)

Publications: 13

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