研究者
J-GLOBAL ID:202001008816056982   更新日: 2024年09月20日

姜 海松

Jiang Haisong
競争的資金等の研究課題 (3件):
  • 2022 - 2025 半導体レーザの極限変調特性実現のための研究開発
  • 2019 - 2022 空間モード多重度の飛躍的な増加のための空間単一次元モード合分波基礎技術の研究
  • 2015 - 2018 モード多重伝送に向けた導波路型高次モード合分波器の研究
論文 (118件):
  • Haisong Jiang, Yuta Shimamura, Ryota Kuwahata, Kensei Yamauchi, Ryoma Matsuo, Kiichi Hamamoto. 9:1 Asymmetric Power Splitter Based on Nano-Pixel Waveguide. IEEE Photonics Technology Letters. 2023
  • Yuta Shimamura, Haisong Jiang, Ryota Kuwahata, Younjin Kim, Kensei Yamauchi, Ryoma Matsuo, Kiichi Hamamoto. Precise asymmetric power-splitter (1.7:1) by using nano-pixel waveguide. Electronics Letters. 2023
  • Yuta Shimamura, Haisong Jiang, Ryota Kuwahata, Younjin Kim, Kensei Yamauchi, Ryoma Matsuo, Kiichi Hamamoto. Precise asymmetric power-splitter (1.7:1) by using nano-pixel waveguide. ELECTRONICS LETTERS. 2023. 59. 11
  • Zhiyuan Fan, Yasuhiro Hinokuma, Haisong Jiang, Kiichi Hamamoto. Active multi-mode interferometer semiconductor optical amplifier on quantum dots toward high saturated output power under high temperature. JAPANESE JOURNAL OF APPLIED PHYSICS. 2022. 61. SK
  • Yunjie Wang, Haisong Jiang, Kiichi Hamamoto. Space-mode compressor by using nano-pixel. JAPANESE JOURNAL OF APPLIED PHYSICS. 2022. 61. SK
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講演・口頭発表等 (163件):
  • Rapid waveguide recognition toward MCF/optical-mode-switch 3D direct coupling
    (Proceedings of The International Symposium on Extremely Advanced Transmission Technology (EXAT 2021), P-13, 4th Nov. 2021 2021)
  • Proposal of Space-mode Compressor toward Compact MDM Devices
    (Proceedings of The International Symposium on Extremely Advanced Transmission Technology ((EXAT 2021), P-18, 4th Nov. 2021 2021)
  • Active-MMI SOA on quantum-dots toward high saturation output power under high temperature
    (Tech. Dig. MOC2021, F-3, pp. 76-77, 28th Sep. 2021 2021)
  • Rapid automatic waveguide recognition using YOLO for 3D waveguide drawing
    (Tech. Dig. MOC2021, PD-2, pp. 280-281, 29th Sep. 2021 2021)
  • Affection analysis of frequency response with photon-photon-resonance (PPR) to directly modulated 40 Gbps signal
    (Tech. Dig. MOC2021, PO-65, pp. 272-273, 28th Sep. 2021 2021)
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