三重大学 高周波フォトニクス研究室

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三重大学大学院工学研究科
電気電子工学専攻
高周波フォトニクス研究室
〒514-8507
三重県津市栗真町屋町1577
TEL/FAX:059-231-9403

業績

論文

2022年度

  1. 村田博司 : “5G無線のための高性能無線-光信号変換デバイスの開発”
    レーザー研究, Vol.50, No.5, pp.233-237, May 2022.

2021年度

  1. Tatsunosuke Matsui, Shun Taniguchi, Kosuke Yoshida, and Hiroshi Murata : "Reflection-less frequency-selective microwave metamaterial absorber,"
    OSA Continuum, vol. 4, no. 8, pp. 2351-2363, August, 2021.
  2. 村田博司 : “5G光ファイバ無線に向けたミリ波・光変換素子”(招待論文)
    電子情報通信学会和文誌C, Vol.J104-C, No.9, pp.251-256, September 2021.
  3. Sayaka Matsukawa, Kosuke Yoshida, Tadahiro Okuda, Masaya Hazama, Satoru Kurokawa,
    and Hiroshi Murata : "Non-destructive Inspection for FRPM Pipeline Using Periodic Pattern of Microwave Guided-modes on Cylindrical Dielectric Waveguide,"
    Electronics Letters, Vol. 57, No. 24, pp.933-935, Nov. 2021.
  4. Hiroshi Murata, Hiroto Yokohashi, Sayaka Matsukawa, Masahiro Sato, Masatoshi Onizawa
    and Satoru Kurokawa : "Antenna-Coupled Electrode Electro-Optic Modulator for 5G Mobile Applications," (Invited Paper)
    IEEE Journal of Microwaves, vol. 1, no. 4, pp. 902-907, Oct. 2021.

2020年度

  1. Yusuke Miyazeki,Hiroto Yokohashi,Shotaro Kodama,Hiroshi Murata,and Taro Arakawa :
    "InGaAs/InAlAs multiple-quantum-well optical modulator integrated with planar antenna for millimeter-wave radio-over-fiber system,"
    Optics Express, Vol. 28, No.8, #389574, 13 April 2020.
  2. 村田博司, “5G アンテナと低誘電率ミリ波材料”,
    MATERIAL STAGE, Vol.20, No.5, pp.3-6 2020年 5月.
  3. Hiroshi Murata :
    "Millimeter-Wave-Band Electro-Optic Modulators Using Antenna-Coupled Electrodes
    for Microwave Photonic Applications," (Invited Paper)
    IEEE/OSA Journal of Lightwave Technology,
    Vol. 38, Issue 19, pp. 5485-5491, 1 Oct. 2020.
    DOI: 10.1109/JLT.2020.3004176
  4. Sayaka Matsukawa, Kosuke Yoshida, Tadahiro Okuda, Masaya Hazama, Satoru Kurokawa,
    and Hiroshi Murata :
    "Non-destructive inspection method for FRPM pipelines utilising time-domain responses
    of microwave guided-modes,"
    Electronics Letters, Vol. 56, Issue 19, pp. 982-985, 17 Sep. 2020.
    DOI: 10.1049/el.2020.1587
  5. 村田博司, “5G時代のEMCのための光電界センサ”,
    月刊EMC, No.395, pp.193-198, 2021年 3月.

2019年度

  1. 横橋裕斗, 松川沙弥果, 大田垣結衣, 塩見英久, 佐藤正博, 鳥羽良和, 黒川悟, 村田博司 :
    “5G移動体通信のためのアンテナ電極電気光学変調器”,
    レーザー研究, Vol.48, No.1, pp.37-40, 2020年 1月.
  2. 村田博司, “5G時代の光通信 -無線・光通信を繋ぐデバイス・システム技術-,”
    OplusE, Vol.42, No.1, pp.34-39, 2020年 1月.
  3. 村田博司, “サッカースタジアム観戦での5G無線・光通信,”
    光アライアンス, Vol.30, No.9, pp.7-11, 2019年 9月.
  4. 村田博司, “サッカースタジアムでのRoFベース5G無線実験と今後の展開,”
    光技術コンタクト, Vol.57, No.4, pp.26-30, 2019年 4月.

2018年度

  1. Hiroshi Murata, Tomohiro Ohno, Takayuki Mitsubo, and Atsushi Sanada :
    "Pre-Equalizing Electro-Optic Modulator Utilizing Polarization-Reversed Structures of Ferro-Electric Crystal," (Invited Paper)
    IEICE Trans on Electronics, vol.E101-C, no.7, pp.581-585, July 2018.
  2. Yuuki Matsukawa, Toshiyuki Inoue, Hiroshi Murata, and Atsushi Sanada :
    "Millimeter-wave band optical single-sideband modulator using array-antenna-electrodes and polarization-reversed structures with asymmetric Mach-Zehnder waveguide,"
    Japanese Journal of Applied Physics, vol.57, 08PB04, July 2018.
  3. Matthias Steeg, Nathan Gomez, Adrian A. Juarez, Michal Kozciesza, Mason Lange, Yigal Leiba, Hiroshi Mano, Hiroshi Murata, Michal Szczisny, and Andreas Stohr :
    "Public Field Trial in a Shopping Mall of a Multi-RAT (60 GHz 5G/LTE/WiFi) Mobile Network,"
    IEEE Wireless Communications, vol.25, no.5, pp. 38-46, October 2018.
  4. 村田博司 : “5Gで楽しむスタジアム観戦”,
    電子情報通信学会学会誌, Vol. 101, No.11, pp.1091-1094, 2018年 11月.

国際会議

2022年度

  1. Takeshi Ebara, Hiroshi Murata, Masato Ishino, Junichi Kinoshita and Kazuhisa Yamamoto :
    "High-Speed Time Domain Measurement of Laser Beam Pulse Trains from Raster Scanning Laser Projectors,"
    LDC 2022, LDC-9-03, 19-22 April 2022, Yokohama, Japan.
  2. Shohei Uomi, Hiroshi Murata, Junichi Kinoshita, and Kazuhisa Yamamotoi :
    "High-Frequency Optical Modulation of Visible Semiconductor Lasers for High-Resolution Scanning Displays,"
    LDC 2022, LDC-7-03, 19-22 April 2022, Yokohama, Japan.
  3. Shotaro Kodama, Yui Otagaki, and Hiroshi Murata :
    "Millimeter-Wave D-band Antenna-Coupled Electrode Electro-Optic Modulator,"
    3rd URSI AT-AP-RASC, Tu-D01-PM2-2, Gran Canaria, May 2022.
    DOI: 10.23919/AT-AP-RASC54737.2022.9814281
  4. Shunsuke Nakamori, Hiroto Yokohashi, Yui Otagaki, Sayaka Matsukawa, Masahiro Sato, Masatoshi Onizawa, Satoru Kurokawa, and Hiroshi Murata :
    "Antenna-Coupled-Electrode Electro-Optic Modulator for Converting 5G-Band Wireless Signal with Two Orthogonal-Polarization Field Components,"
    OECC/PSC 2022, WD3-3, Toyama, Japan, July 2022.
  5. Hiroto Miyazaki, Hiroto Yokohashi, and Hiroshi Murata :
    "5G Wireless-Optical Signal Converter Using Antenna-Coupled Electrode Electro-Optic Modulator and WDM Add/Drop Filters,"
    CLEO-PR 2022, CMP18B-02, Sapporo, Japan, August 2022.
  6. Masafumi Suzuki, Kota Fukazawa, Akihoko Hirata, Hiroshi Murata and Masato Mizukami :
    "Study on MIMO Communication using Microwave Guided-Modes Propagating along PVC Pipe Wall,"
    iWEM 2022, August 29-31, 2022, Narashino, Chiba, Japan.
  7. Arie Setiawan, Atsuki Yamawaki, Naruto Yonemoto, Hitoshi Nohmi, Hiroshi Murata :
    "Millimeter-Wave Imaging Using Dielectric Lens for Security Application,"
    EuRAD 2022. EuRAD14-3, pp. 225-228,
    Milan Convention Center, Milan, Italy, 25-30 September 2022.
  8. Mefina Yulias ROFIANINGRUM, Yui OTAGAKI, and Hiroshi MURATA :
    "Novel Electro-Optic Modulator Using Antenna-Coupled Electrode and MMI coupler for
    Converting SDM Mobile Wireless Signals to WDM Optical Signals,"
    IECTC 2022, November 29-December 1, 2022, Tokyo, Japan.
  9. Arie Setiawan, Naruto Yonemoto, Hitoshi Nohmi, and Hiroshi Murata :
    "Analysis of Millimeter-Wave Imaging Using Dielectric Lens for Fourier Transformation,"
    APMC 2022, November 29-December 2, 2022, Yokohama, Japan.
  10. Tadahiro Okuda, Kento Katagiri, Yui Otagaki, and Hiroshi Murata :
    "Non-Destructive Diagnosis of FRPM Pipelines Using Microwave Guided-Mode and Optical Fiber Link,"
    APMC 2022, November 29-December 2, 2022, Yokohama, Japan.
  11. Hiroshi Murata, Takashi Ebara, Shohei Uomi, Junichi Kinoshita, Kazuhisa Yamamoto :
    "High-Speed Time-Domain Measurement of Laser Beam Signals from Raster-Scanning RGB Laser Projector,"
    IDW 2022, PRJ1-04, December 14-16, 2022, Fukuoka, Japan.

2021年度

  1. Takeshi Ebara, Hiroshi Murata, Masato Ishino, Junichi Kinoshita and Kazuhisa Yamamoto :
    "Scanning RGB Laser Beam Detection for Smart Laser Display System,"
    LDC 2021, LDC-9-03, 19-22 April 2021, Yokohama, Japan.
  2. Hiroshi Murata, Shotaro Kodama, and Takuto Mori :
    "W-Band Wireless Signal IF-Conversion Using Antenna-Coupled-Electrode Optical Modulator for Millimeter-Wave Radars,"
    IEEE CAMA 2021, 15-17 November 2021.
  3. Satoru Kurokawa, Sayaka Matsukawa, Michitaka Ameya, Masahiro Sato, Masatoshi Onizawa and Hiroshi Murata :
    "Antenna Factor Estimation for Electric-Field Sensor Using an Amplitude Center Modified Friis Transmission Formular,"
    IEEE CAMA 2021, 15-17 November 2021.
  4. Sayaka Matsukawa, Kosuke Yoshida, Tadahiro Okuda, Masaya Hazama, Satoru Kurokawa
    and Hiroshi Murata :
    "Non-destructive Diagnosis for FRPM Pipeline Using Self-imaging Effect of Microwave on
    Cylindrical Dielectric Waveguide,"
    IEEE CAMA 2021, 15-17 November 2021.
  5. Satoru KUROKAWA, Sayaka MATSUKAWA, Michitaka AMEYA, Masahiro SATO, Masatoshi ONIZAWA,and Hiroshi MURATA :
    "Antenna Factor Measurement for Linear Polarized Electric-Field Sensor for 28 GHz Band of 5G,"
    PEM 2021, M-3, Sapporo, Japan, 29-30 November 2021.
  6. Kosuke Yoshida, Sayaka Matsukawa, Satoru Kurokawa, Tadahiro Okuda, Masaya Hazama,
    and Hiroshi Murata :
    "Measurement of Reflected Microwave Guided-Mode Signal Propagating along FRPM Pipe-Wall Using Electro-Optic Sensor for Non-Destructive Remote Pipeline Inspection,"
    PEM 2021, T-10, Sapporo, Japan, 29-30 November 2021.
  7. Shotaro Kodama, Takuto Mori, Yui Otagaki, and Hiroshi Murata :
    "Millimeter-Wave D-band Antenna-Coupled Electrode Electro-Optic Modulator,"
    PEM 2021, T-12, Sapporo, Japan, 29-30 November 2021.
  8. Yui Otagaki, Shunsuke Nakamori, Hiroto Yokohashi, Sayaka Matsukawa, Satoru Kurokawa,
    Masahiro Sato, Masatoshi Onizawa, and Hiroshi Murata :
    "28 GHz-Band Antenna-Coupled-Electrode Electro-Optic Modulator for Converting Two
    Orthogonal-Polarization Field Components Simultaneously for 5G Mobile Systems,"
    PEM 2021, T-13, Sapporo, Japan, 29-30 November 2021.
  9. Hiroshi Murata, Arie Setiawan, Akiko Kohmura, Shunichi Futatsumori, Kazuyuki Morioka,
    Yoshio Makita, and Naruto Yonemoto :
    "Complex Power Measurement of Millimeter-Wave Signal through Dielectric Lens
    by Correlation Receiving Method for Security Inspections,"
    WPMC 2021, Okayama, 14-16 December 2021.
  10. Satoru Kurokawa, Sayaka Matsukawa, Michitaka Ameya, Masahiro Sato, Masatoshi Onizawa,and Hiroshi Murata :
    "All-Optical Fiber Link Antenna Measurement System Using an Industrial Robot System,"
    EuCAP 2022, 27 March-01 April, Madrid Spain.

2020年度

  1. Kiyoshiro Yamanaka, Hiroshi Murata, Junichi Kinoshita, and Kazuhisa Yamamoto :
    "High-Frequency Digital Modulation of RGB Semiconductor Lasers for High-Resolution Scanning Displays,"
    LDC 2020, 21-24 April 2020, Yokohama, Japan.
  2. Hiroto Yokohashi, Sayaka Matsukawa, Yui Otagaki, Hidehisa Shiomi, Masahiro Sato,
    Yoshikazu Toba, Satoru Kurokawa, and Hiroshi Murata :
    "Antenna-Coupled-Electrode Electro-Optic Modulator for Converting Two Orthogonal-Polarization Field Components Simultaneously for 5G Mobile Systems,"
    CLEO-PR 2020, C8F-3, 2-6 August 2020, Sydney, Australia.
  3. Kenta Takaba and Hiroshi Murata :
    "Proposal of new wireless signal control technique using high-speed optical modulation and temporal delay caused by optical fiber dispersion,"
    IWRIS 2020, 2-9, 15 October 2020, Tsu, Mie, Japan.
  4. Hiroto Yokohashi, Sayaka Matsukawa, Masahiro Sato, Masatoshi Onizawa, Satoru Kurokawa, and Hiroshi Murata :
    "High-Speed Data Transmission Using 28-GHz Antenna-Coupled Electrode Electro-Optic Modulators for 5G Mobile Systems,"
    MWP 2020, P.6, 24-26 November 2020, Matsue, Shimane, Japan.
  5. Kosuke Yoshida, Sayaka Matsukawa, Satoru Kurokawa,Tadahiro Okuda, Masaya Hazama,
    and Hiroshi Murata :
    "Microwave Time-Domain Analysis for Non-Destructive Inspection of FRPM Pipelines Using Electro-Optic Sensor,"
    MWP 2020, P.36, 24-26 November 2020, Matsue, Shimane, Japan.
  6. Hiroshi Murata, Shotaro Kodama, and Hiroto Yokohashi :
    "W-Band Antenna-Coupled-Electrode Electro-Optic Modulator for Millimeter-Wave Radar Systems,"
    MWP 2020, Th1.4, 24-26 November 2020, Matsue, Shimane, Japan.
  7. Hiroshi Murata :
    "Photonics-Applied High-Frequency Electromagnetic Field Measurement Techniques for 5G/Beyond-5G Mobile Systems and Millimeter-Wave Radars," (Invited Paper)
    ICETC 2020, IA3-3, 2-4 December 2020, Tokyo, Japan.
  8. Sayaka Matsukawa, Kosuke Yoshida, Tadahiro Okuda, Masaya Hazama, Satoru Kurokawa,
    and Hiroshi Murata :
    "Nondestructive Inspection for FRPM Pipeline Utilizing Temporal Synthesis of Microwave Signals Propagating along FRPM Pipe-wal,"
    ICETC 2020, F2-2, 2-4 December 2020, Tokyo, Japan.
  9. Satoru Kurokawa, Sayaka Matsukawa, Masahiro Sato, Masatoshi Onizawa, Hiroto Yokohashi, Hiroshi Murata, and Masanobu Hirose :
    "High Front-to-Back Ratio Dual-Polarized Antenna-Coupled Electrode Electro-Optic Modulator for 28 GHz Band Near Field Antenna Measurement,"
    EuCAP 2021, 22-26 March 2021, Dusseldorf, Germany.

2019年度

  1. Yusuke Kato, Hiroshi Murata, and Kazuhisa Yamamoto :
    "High-Speed Operation of Electro-Optic Bragg Deflectors Utilizing Periodically
    Polarization-Reversed Structures,"
    The 8th Laser Display and Lighting Conference 2019 (LDC2019),
    LDC-3-02, April 23-26(24), 2019, Yokohama, Japan.
  2. Hiroshi Murata :
    "Demonstration of 5G-Mobile Communication Systems in Dense User Environments
    Using Photonic-Based Remote Antennas,"
    OECC/PSC 2019 Workshop, July 7-11(7), 2019, Fukuoka, Japan.
  3. Hiroshi Murata, Hiroto Yokohashi, Yui Otagaki, Hidehisa Shiomi, Sayaka Matsukawa,
    Masahiro Sato, Yoshikazu Toba, and Satoru Kurokawa :
    "Antenna-Coupled Electrode Electro-Optic Modulator and 28 GHz-Band Wireless Signal Transfer over Fiber for 5G Mobile Systems,"
    OECC/PSC 2019, WF1-5, July 7-11(10), 2019, Fukuoka, Japan.
  4. Hiroshi Murata :
    "Millimeter-wave Wireless Signal-Lightwave Signal Conversion Device Using Antenna-Integrated Electro-Optic Modulators," (Invited Paper)
    URSI-JRSM 2019, D1-4, September 5-6(5), 2019, Tokyo Japan.
  5. Sayaka Matsukawa, Kosuke Yoshida, Yoshihiro Nishimura, Tadahiro Okuda, Masaya Hazama, Satoru Kurokawa, and Hiroshi Murata :
    "Time Domain Analysis of Microwave Signal Propagating along FRPM Pipe Walls and Application to Non-destructive Inspection,"
    EuMW 2019, EuMC/EuRAD01-4, pp.932-935, September 29-October 4(2), 2019, Paris, France.
  6. Hiroshi Murata :
    "Millimeter-Wave-Band Electro-Optic Modulators for Microwave Photonic Applications," (Plenary Talk)
    MWP 2019, October 7-10(10) 2019, Ottawa, Canada.
  7. Sayaka Matsukawa, Kosuke Yoshida, Yoshihiro Nishimura, Tadahiro Okuda, Masaya Hazama, Satoru Kurokawa, and Hiroshi Murata :
    "Time-domain Analysis of Microwave Guided-Modes Propagating along FRPM Pipe Wall for Infrastructure Inspection," (Invited Paper)
    IEEE CAMA 2019, 23-25(24) October 2019, Bali, Indonesia.
  8. Satoru Kurokawa, Hiroto Yokohashi, Yui Otagaki, Sayaka Matsukawa, Masahiro Sato, Yoshikazu Toba, and Hiroshi Murata :
    "Receiving performance for 5G Frequency Band Antenna-Coupled Electrode Electro-Optic Modulators,"
    IEEE CAMA 2019, 23-25(24) October 2019, Bali, Indonesia.
  9. Sayaka MATSUKAWA, Kosuke YOSHIDA, Tadahiro OKUDA, Masaya HAZAMA, Satoru KUROKAWA,Hiroshi MURATA :
    "Time-domain Analysis of Microwave Guided-Modes Propagating along FRPM Pipe Wall for Pipeline Inspection,"
    PEM 2019, PE-03, 18-19(18) November 2019, Ise, Mie, Japan.
  10. Kosuke Yoshida, Sayaka Matsukawa, Yoshihiro Nishimura, Satoru Kurokawa,Tadahiro Okuda, Masaya Hazama, and Hiroshi Murata :
    "Time Domain Analysis of Reflected Microwave Signal for FRPM Pipeline Inspection to Detect Foreign Objects,"
    PEM 2019, PE-05, 18-19(18) November 2019, Ise, Mie, Japan.
  11. Hiroto Yokohashi, Sayaka Matsukawa, Yui Otagaki, Hidehisa Shiomi, Masahiro Sato, Yoshikazu Toba, Satoru Kurokawa, and Hiroshi Murata :
    "28 GHz-Band Antenna-Coupled Electrode Electro-Optic Modulators for 5G Mobile Communication Systems and Antenna Measurement Systems,"
    PEM 2019, PE-06, 18-19(18) November 2019, Ise, Mie, Japan.
  12. Kenta Takaba, and Hiroshi Murata :
    "Analysis of Polarization-Reversed Electro-Optic Modulator with Arbitrary Transfer Function and its Application to Pre-Equalization of Signal Distortion by Fiber Dispersion,"
    PEM 2019, PE-08, 18-19(18) November 2019, Ise, Mie, Japan.
  13. Yoshihiro NISHIMURA, Kosuke YOSHIDA, Sayaka MATSUKAWA, Tadahiro OKUDA, Masaya HAZAMA, Satoru KUROKAWA, and Hiroshi MURATA :
    "Measurement of Microwave Field Distribution Propagating along FRPM Pipe-Wall Using Electro-Optic Sensor for Non-Destructive Inspection,"
    PEM 2019, PE-11, 18-19(18) November 2019, Ise, Mie, Japan.
  14. Hiroshi Murata, and Hiroto Yokohashi :
    "80-GHz Band Electro-Optic Modulator Using Antenna-Coupled Electrode and LiNbO3 Film Stacked on Low-k Substrate for Millimeter-Wave Radar System,"
    OFC 2020, Th2A.40, 8-12(12) March 2020, San Diego, USA.

2018年度

  1. Masato Ishino, Toshiyuki Kitamura, Akira Takamori, Masahide Okazaki, Hiroshi Murata, Junichi Kinoshita, Noboru Hasegawa, Masaharu Nishikino and Kazuhisa Yamamoto :
    "Multi-purpose IoT Station Using Scanning Visible Laser Diodes Common to Smart Lighting and LiDAR," The 7th Laser Display and Lighting Conference (LDC 2018),
    LDC2-3, 24-27(24) April 2018, Yokohama, Kanagawa, Japan.
  2. Yuta Hayashi, Toshiyuki Inoue, Hiroshi Murata, Atsushi Sanada, Masahide Okazaki, Masato Ishino, and Kazuhisa Yamamoto :
    "High-Speed Multi-Diffraction-Type Electro-Optic Deflector Using Polarization-Reversed Structures,"
    The 7th Laser Display and Lighting Conference (LDC 2018),
    LDC11-3, 24-27(27) April 2018, Yokohama, Kanagawa, Japan.
  3. Hiroshi Murata, Tadahiro Okuda and Masaya Hazama :
    "Microwave Guided-Mode Propagation and Reflection along Fiber-Reinforced Plastic Mortal
    Pipe Walls and their Applications to Nondestructive Measurement,"
    PIERS 2018 Toyama,
    Session 2A5, p.375, 1-4(2) August 2018, Toyoma, Japan.
  4. Hiroshi Murata and Andreas Stohr :
    "Photonic-Based Mobile Front-haul Network for 5G Systems in Dense User Environment," (Invited Talk)
    PIERS 2018 Toyama,
    Session 2A11, p.432, 1-4(2) August 2018, Toyoma, Japan.
  5. Hiroshi Murata :
    "Wireless Millimeter-Wave to Lightwave Signal Converter Utilizing Antenna-Integrated Electro-Optic Modulators,"
    PIERS 2018 Toyama,
    Session 2P11, p.725, 1-4(2) August 2018, Toyoma, Japan.
  6. Hiroshi Murata, Tadahiro Okuda and Masaya Hazama :
    "Nondestructive Infrastructure Measurement Using Microwave Guided-Mode Propagation and Reflection along Fiber-Reinforced Plastic Mortal Pipe Wall in Underground Pipeline,"
    2018 IEEE Conference on Antenna Measurements and Applications (2018 IEEE CAMA),
    57.2, 3-6(3) September 2018, Vasteras, Sweden.
    DOI: 10.1109/CAMA.2018.8530533
  7. Andreas Stohr, Nathan Gomez, Adrian A. Juarez, Michal Kozciesza, Mason Lange, Yigal Leiba, Hiroshi Mano, Hiroshi Murata, Matthias Steeg, and Michal Szczisn :
    "Multi RAT (WiFi/LTE/5G) Mobile Network Featuring RoF Fronthaul, 60 GHz Beam-Switching and Mobile IP,"
    2018 European Conference on Optical Communication (ECOC 2018),
    DOI: 10.1109/ECOC.2018.8535110
  8. Hiroshi Murata and Yuuki Matsukawa :
    "Millimeter-Wave Band Optical Single-Sideband Modulator Utilizing Antenna-Coupled Electrode with Polarization-Reversed Structures and Asymmetric Mach-Zehnder Waveguide,"
    2018 International Topical Meeting on Microwave Photonics (MWP 2018),
    pp.191-194, 22-25(24) October 2018, Toulouse, France.
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