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Associate Professor : Kuse, Naoya |
1. | Naoya Kuse : マイクロ光周波数コムによるTHzキャリア発生と低位相雑音技術(テラヘルツ波の 発生,検出,制御技術と最新応用の第1章の第13節), Technical Information Institute Co., Ltd., Jul. 2024. |
1. | Omnia Nawwar, Kaoru Minoshima and Naoya Kuse : Stepped-Frequency THz-Wave Signal Generation From a Kerr Microresonator Soliton Comb., IEEE/OSA Journal of Lightwave Technology, Vol.42, No.7, 2260-2266, 2024. (DOI: 10.1109/JLT.2023.3336991) |
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2. | Jonathan Cuevas, Ryugo Iwami, Atsushi Uchida, Kaoru Minoshima and Naoya Kuse : Solving multi-armed bandit problems using a chaotic microresonator comb, APL Photonics, Vol.9, No.3, 2024. (DOI: 10.1063/5.0173287) |
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3. | Yu Tokizane, Shota Okada, Takumi Kikuhara, Hiroki Kishikawa, Yasuhiro Okamura, Yoshihiro Makimoto, Kenji Nishimoto, Takeo Minamikawa, Eiji Hase, Junichi Fujikata, Masanobu Haraguchi, Atsushi Kann, Shintaro Hisatake, Naoya Kuse and Takeshi Yasui : Wireless data transmission in the 560-GHz band utilizing terahertz wave generated through photomixing of a pair of distributed feedback lasers injection-locking to a Kerr micro-resonator soliton comb, Optics Continuum, Vol.3, No.1, 1-8, 2024. (DOI: 10.1364/OPTCON.504431) |
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4. | Yudai Matsumura, Yu Tokizane, Eiji Hase, Naoya Kuse, Takeo Minamikawa, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, Takahiro Kaji, Akira Otomo, Isao Morohashi, Atsushi Kannno, Shintaro Hisatake and Takeshi Yasui : Carrier conversion from terahertz wave to dual-wavelength near-infrared light for photonic terahertz detection in wireless communication, Optics Express, Vol.31, No.20, 33103-33112, 2023. (DOI: 10.1364/OE.499472) |
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5. | Yu Tokizane, Shota Okada, Kenji Nishimoto, Yasuhiro Okamura, Hiroki Kishikawa, Takeo Minamikawa, Eiji Hase, Junichi Fujikata, Masanobu Haraguchi, Atsushi Kanno, Shintaro Hisatake, Naoya Kuse and Takeshi Yasui : Terahertz wireless communication in a 560-GHz band using a Kerr micro-resonator soliton comb, Optics Continuum, Vol.2, No.5, 1267-1275, 2023. (Tokushima University Institutional Repository: 118500, DOI: 10.1364/OPTCON.491729) |
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6. | Naoya Kuse, Kenji Nishimoto, Yu Tokizane, Shota Okada, Gabriele Navickaite, Michael Geiselmann, Kaoru Minoshima and Takeshi Yasui : Low phase noise THz generation from a ber-referenced Kerr microresonator soliton comb, Communications Physics, Vol.5, No.1, 312, 2022. (Tokushima University Institutional Repository: 117990, DOI: 10.1038/s42005-022-01100-0) |
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7. | Kenji Nishimoto, Kaoru Minoshima, Takeshi Yasui and Naoya Kuse : Thermal control of a Kerr microresonator soliton comb via an optical sideband, Optics Letters, Vol.47, No.2, 281-284, 2022. (DOI: 10.1364/OL.448326, PubMed: 35030587) |
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8. | Naoya Kuse and Kaoru Minoshima : Amplification and phase noise transfer of a Kerr microresonator soliton comb for low phase noise THz generation with a high signal-to-noise ratio, Optics Express, Vol.30, No.1, 318-325, 2022. (DOI: 10.1364/OE.446903, PubMed: 35201210, CiNii: 1360857593803704704, Elsevier: Scopus) |
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9. | Naoya Kuse, Gabriele Navickaite, Michael Geiselmann, Takeshi Yasui and Kaoru Minoshima : Frequency-scanned microresonator soliton comb with tracking of the frequency of all comb modes, Optics Letters, Vol.46, No.14, 3400-3403, 2021. (DOI: 10.1364/OL.426841, PubMed: 34264223) |
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10. | Kenji Nishimoto, Kaoru Minoshima, Takeshi Yasui and Naoya Kuse : Investigation of the phase noise of a microresonator soliton comb, Optics Express, Vol.28, No.13, 19295-19303, 2020. (DOI: 10.1364/OE.395436, PubMed: 32672209, Elsevier: Scopus) |
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11. | Yi Li, Iwamoto Kenta, Yamamoto Takumi, Ayano Fumiya, Li Yihan, Rolland Antoine, Naoya Kuse, Fermann Martin and Nagatsuma Tadao : 300-GHz-band wireless communication using a low phase noise photonic source, International Journal of Microwave and Wireless Technologies, 1-8, 2020. (DOI: 10.1017/S175907872000029X, Elsevier: Scopus) |
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12. | Naoya Kuse, Tomohiro Tetsumoto, Gabriele Navickaite, Michael Geiselmann and Martin E. Fermann : Continuous scanning of a dissipative Kerr-microresonator soliton comb for broadband, high-resolution spectroscopy, Optics Letters, Vol.45, No.4, 927-930, 2020. (DOI: 10.1364/OL.383036, PubMed: 32058508) |
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13. | Kenji Nishimoto, Kaoru Minoshima, Takeshi Yasui and Naoya Kuse : Generation of a microresonator soliton comb via current modulation of a DFB laser, OSA Continuum, Vol.3, No.11, 3218-3224, 2020. (DOI: 10.1364/OSAC.409885) |
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14. | Naoya Kuse and Martin E. Fermann : Frequency-modulated comb LIDAR, APL Photonics, Vol.4, No.10, 106105, 2019. (Tokushima University Institutional Repository: 114988, DOI: 10.1063/1.5120321, Elsevier: Scopus) |
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15. | Naoya Kuse, Travis C. Briles, Scott B. Papp and Martin E. Fermann : Control of Kerr-microresonator optical frequency comb by a dual-parallel Mach-Zehnder interferometer, Optics Express, Vol.27, No.4, 3873-3883, 2019. (DOI: 10.1364/OE.27.003873, PubMed: 30876012) |
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16. | Yihan Li, Antoine Rolland, Kenta Iwamoto, Naoya Kuse, Martin E. Fermann and Tadao Nagatsuma : Low-noise millimeter-wave synthesis from a dual-wavelength fiber Brillouin cavity, Optics Letters, Vol.44, No.2, 359-362, 2019. (DOI: 10.1364/OL.44.000359, PubMed: 30644899) |
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17. | Naoya Kuse and Martin E. Fermann : A photonic frequency discriminator based on a two wavelength delayed self-heterodyne interferometer for low phase noise tunable micro/mm wave synthesis, Scientific Reports, Vol.8, No.1, 13719, 2018. (Tokushima University Institutional Repository: 115237, DOI: 10.1038/s41598-018-31712-y, PubMed: 30209321) |
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18. | Yihan Li, Naoya Kuse and Martin E. Fermann : Photonics-enabled wideband microwave burst detection, Optics Letters, Vol.43, No.7, 1491-1494, 2018. (DOI: 10.1364/OL.43.001491, PubMed: 29601012) |
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19. | Antoine Rolland, Peng Lin, Naoya Kuse, Jie Jiang, Marco Cassinerio, Carsten Langrock and Martin E. Fermann : Ultra-broadband dual-branch optical frequency comb with 10-18 instability, Optica, Vol.5, No.9, 1070-1077, 2018. (DOI: 10.1364/OPTICA.5.001070, Elsevier: Scopus) |
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20. | Yihan Li, Naoya Kuse and Martin E. Fermann : Fast ultra-wideband microwave spectral scanning utilizing photonic wavelength- and time-division multiplexing, Optics Express, Vol.25, No.16, 18863-18871, 2017. (DOI: 10.1364/OE.25.018863, PubMed: 29041078) |
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21. | Yihan Li, Naoya Kuse, Antoine Rolland, Yuriy Stepanenko, Czesław Radzewicz and Martin E. Fermann : Low noise, self-referenced all polarization maintaining Ytterbium fiber laser frequency comb, Optics Express, Vol.25, No.15, 18017-18023, 2017. (DOI: 10.1364/OE.25.018017, PubMed: 28789289) |
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22. | Naoya Kuse and Martin E. Fermann : Electro-optic comb based real time ultra-high sensitivity phase noise measurement system for high frequency microwaves, Scientific Reports, Vol.7, No.1, 2847, 2017. (Tokushima University Institutional Repository: 115231, DOI: 10.1038/s41598-017-03049-5, PubMed: 28588194) |
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23. | Noriaki Ohmae, Naoya Kuse, Martin E. Fermann and Hidetoshi Katori : All-polarization-maintaining, single-port Er: fiber comb for high-stability comparison of optical lattice clocks, Applied Physics Express, Vol.10, No.6, 062503, 2017. (DOI: 10.7567/APEX.10.062503) |
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24. | Naoya Kuse, Thomas R. Schibli and Martin E. Fermann : Low noise electro-optic comb generation by fully stabilizing to a mode-locked fiber comb, Optics Express, Vol.24, No.15, 16884-16893, 2016. (DOI: 10.1364/OE.24.016884, PubMed: 27464140) |
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25. | Naoya Kuse, Jie Jiang, Chien-Chung Lee, Thomas R. Schibli and Martin E. Fermann : All polarization-maintaining Er fiber-based optical frequency combs with nonlinear amplifying loop mirror, Optics Express, Vol.24, No.3, 3095-3102, 2016. (DOI: 10.1364/OE.24.003095, PubMed: 26906874) |
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26. | Naoya Kuse, Chien-Chung Lee, Jie Jiang, Christian Mohr, Thomas R. Schibli and Martin E. Fermann : Ultra-low noise all polarization-maintaining Er fiber-based optical frequency combs facilitated with a graphene modulator, Optics Express, Vol.23, No.19, 24342-24350, 2015. (DOI: 10.1364/OE.23.024342, PubMed: 26406639) |
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27. | Naoya Kuse, 小澤 陽 and 小林 洋平 : Dual-Comb Spectroscopy for Fast, Broadband, and Precise Spectroscopy, BUTSURI, Vol.69, No.1, 29-37, 2014. (DOI: 10.11316/butsuri.69.1_29, CiNii: 1390845713088220928) |
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28. | Naoya Kuse, Akira Ozawa and Yohei Kobayashi : Static FBG strain sensor with high resolution and large dynamic range by dual-comb spectroscopy, Optics Express, Vol.21, No.9, 11141-11149, 2013. (DOI: 10.1364/OE.21.011141, PubMed: 23669971) |
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29. | Naoya Kuse, Akira Ozawa, Yutaka Nomura, Isao Ito and Yohei Kobayashi : Injection locking of Yb-fiber based optical frequency comb,, Optics Express, Vol.20, No.10, 10509-10518, 2012. (DOI: 10.1364/OE.20.010509, PubMed: 22565676) |
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30. | Naoya Kuse, Akira Ozawa and Yohei Kobayashi : Comb-Resolved Dual-Comb Spectroscopy Stabilized by Free-Running Continuous-Wave Lasers, Applied Physics Express, Vol.Exp 5, No.11, 112402, 2012. (DOI: 10.1143/APEX.5.112402) |
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31. | Naoya Kuse, Yutaka Nomura, Akira Ozawa, Makoto Kuwata-Gonokami, Shuntaro Watanabe and Yohei Kobayashi : Self-compensation of third-order dispersion for ultrashort pulse generation demonstrated in an Yb fiber oscillator, Optics Letters, Vol.35, No.23, 3868-3870, 2010. (DOI: 10.1364/OL.35.003868, PubMed: 21124548) |
1. | Takeshi Yasui and Naoya Kuse : Next-generation mobile communication leveraging cutting-edge photonic technologies (Photonic 6G), ~All-photonic THz generation based on soliton microcomb~, The Project Repository Journal, Vol.18, No.1, 78-82, Oct. 2023. (DOI: 10.54050/PRJ1820760) |
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2. | Takeshi Yasui, Takeo Minamikawa, Yu Tokizane, Naoya Kuse, Takaaki Koma, Takao Ueda and Masako Nomaguchi : 目に見えない光が切り拓く『光の世紀』, Journal of the Japan Society for Precision Engineering, Vol.89, No.8, 587-591, Aug. 2023. (DOI: 10.2493/jjspe.89.587) |
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3. | Naoya Kuse : Emerging applications with microresonator optical frequency combs, Photonics Review, No.220201, Dec. 2022. (DOI: 10.11470/photo.220201, CiNii: 1390294496035795456) |
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4. | Naoya Kuse : マイクロコムによる光周波数コムの新展開, フォトニクスニュース, Vol.7, No.1, 40-44, Jun. 2021. |
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5. | Kazumichi Yoshii, Naoya Kuse and Kaoru Minoshima : 次世代光周波数コム―中赤外光周波数コムと集積光周波数コム, OPTRONICS, Vol.39, No.465, 99-104, Sep. 2020. (CiNii: 1524232505630564480) |
1. | Yu Tokizane, Takumi Kikuhara, Y. Makimoto, Hiroki Kishikawa, Yasuhiro Okamura, Kenji Nishimoto, A. Kanno, S. Hisatake, Naoya Kuse and Takeshi Yasui : 560 GHz wireless communication using soliton microcomb modes and photomixing with heterodyne detection, 49th International Conference on Infrared, Millimeter and Terahertz Waves (IRMMW-THz2024),, Sep. 2024. |
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2. | Takumi Kikuhara, Yoshihiro Makimoto, Yu Tokizane, Naoya Kuse, Eiji Hase, Yudai Matsumura, Hiroki Kishikawa, Yasuhiro Okamura, A. Kanno, S. Hisatake and Takeshi Yasui : Baseband modulation in terahertz wave communication using micro-optical comb, 16th Pacific Rim Conference on Lasers and Electro-Optics (CLEO-PR2024), Aug. 2024. |
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3. | Yudai Matsumura, Eiji Hase, Yu Tokizane, Naoya Kuse, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, T. Kaji, A. Otomo, I. Morohashi, A. Kanno, S. Hisatake and Takeshi Yasui : THz to optical carrier conversion using electro-optic polymer modulators and pptical combs, 16th Pacific Rim Conference on Lasers and Electro-Optics (CLEO-PR2024), Aug. 2024. |
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4. | Jonathan Cuevas, Uchida Atsushi, Kaoru Minoshima and Naoya Kuse : Frequency Multiplexed Photonic Reservoir Computing Using a Mach-Zehnder Interferometer, CLEO PR 2024, 韓国,仁川, Aug. 2024. |
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5. | HITOTSUMATSU Daichi, Kaoru Minoshima and Naoya Kuse : Parallelization of Temporally Multiplexed Matrix Vector Multiplication with Rayleigh Backscattering in an Optical Fiber via Wavelength-division Multiplexing, CLEO PR 2024, 韓国,仁川, Aug. 2024. |
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6. | Nishimoto Kenji, Kaoru Minoshima and Naoya Kuse : Experimental Investigation of Thermally Insensitive Kerr Microresonator Soliton Comb, CLEO PR 2024, 韓国,仁川, Aug. 2024. |
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7. | Yudai Matsumura, Yu Tokizane, Eiji Hase, Naoya Kuse, Takeo Minamikawa, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, T. Kaji, A. Otomo, I. Morohashi, A. Kanno, S. Hisatake and Takeshi Yasui : Carrier Conversion From Terahertz Wave To Dual-Wavelength Near-Infrared Light Injection-Locked Optical Comb For Photonic Terahertz Detection In Wireless Communication, 4th URSI Atlantic Radio Science Meeting (AT-RASC 2024), May 2024. |
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8. | Takumi Kikuhara, Y. Makimoto, Yu Tokizane, Hiroki Kishikawa, Yasuhiro Okamura, Kenji Nishimoto, Takeo Minamikawa, Eiji Hase, Junichi Fujikata, A. Kanno, S. Hisatake, Naoya Kuse and Takeshi Yasui : Wireless Data Transmission in a 560-GHz Band Utilizing Terahertz Waves Generated through Photomixing by Injection-Locked Distributed Feedback Lasers with Kerr Micro-Resonator Soliton Comb, 4th URSI Atlantic Radio Science Meeting (AT-RASC 2024), May 2024. |
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9. | Yu Tokizane, Takumi Kikuhara, Y. Makimoto, Hiroki Kishikawa, Yasuhiro Okamura, Kenji Nishimoto, A. Kanno, S. Hisatake, Naoya Kuse and Takeshi Yasui : Terahertz wave generation by dual-wavelength laser lights injection-locked to a soliton microcomb in mode spacing of 560 GHz for wireless communication with advanced modulation format, Conference on Lasers and Electro-Optics (CLEO) 2024, JTu2A.65, May 2024. |
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10. | Jonathan Cuevas, Iwami Ryugo, Uchida Atsushi, Kaoru Minoshima and Naoya Kuse : Decision making using a chaotic microresonator frequency comb, The 13th Advanced Lasers and Photon Sources Conference (ALPS2024), Kanagawa, Apr. 2024. |
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11. | HITOTSUMATSU Daichi, Kaoru Minoshima and Naoya Kuse : Parallelization of temporally multiplexed matrix-vector multiplication with distribute feedback based on Rayleigh backscattering in an optical fiber, The 13th Advanced Lasers and Photon Sources Conference (ALPS2024), Kanagawa, Apr. 2024. |
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12. | KENJI Nishimoto, Kaoru Minoshima and Naoya Kuse : Experimental and numerical investigation of blue- and red- detuned dissipative Kerr solitons in coupled-microresonators, The 13th Advanced Lasers and Photon Sources Conference (ALPS2024), Kanagawa, Apr. 2024. |
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13. | Cuevas Jonathan, Iwami Ryugo, Uchida Astushi, Kaoru Minoshima and Naoya Kuse : Solving multi-armed bandit problems using a chaotic microresonator comb, The First International Symposium on Photonic Computing, B04-3, Tokyo, Mar. 2024. |
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14. | Shota Okada, Kenji Nishimoto, Yu Tokizane, Hiroki Kishikawa, Yasuhiro Okamura, Naoya Kuse and Takeshi Yasui : Generation of Terahertz Wave at 560 GHz based on Photomixing of 560-GHz-spacing Soliton Microcomb with UTC-PD, 28th Microoptics Conference (MOC2023), PO-28, Miyazaki, Sep. 2023. (DOI: 10.23919/MOC58607.2023.10302868) |
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15. | Yudai Matsumura, Eiji Hase, Yu Tokizane, Naoya Kuse, Takeo Minamikawa, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, Takahiro Kaji, Akira Otomo, Atsushi Kanno, Shintaro Hisatake and Takeshi Yasui : Dual-wavelength CW lasers injection-locked to optical comb modes for carrier conversion from THz wave to near-infrared light via electro-optical polymer modulator, 48th International Conference on Infrared, Millimeter and Terahertz Waves (IRMMW-THz2023), Th-P2-63, Montreal, Sep. 2023. (DOI: 10.1109/IRMMW-THz57677.2023.10299276) |
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16. | Yu Tokizane, Shota Okada, Kenji Nishimoto, Hiroki Kishikawa, Yasuhiro Okamura, Naoya Kuse, Atsushi Kanno, Shintaro Hisatake and Takeshi Yasui : Terahertz wave generated by photomixing of dual-wavelength laser lights injection-locked to a 560-GHz-spacing soliton microcomb for THz wireless communication, 48th International Conference on Infrared, Millimeter and Terahertz Waves (IRMMW-THz2023), Th-AM-1-5, Montreal, Sep. 2023. (DOI: 10.1109/IRMMW-THz57677.2023.10298947, Elsevier: Scopus) |
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17. | Takumi Kikuhara, Yoshihiro Makimoto, Yu Tokizane, Naoya Kuse, Eiji Hase, Yudai Matsumura, Hiroki Kishikawa, Atsushi Kanno, Shintaro Hisatake, Yasuhiro Okamura and Takeshi Yasui : Phase moduration in terahertz wave communication using micro-optical comb, 10th International Symposium on Terahertz-Related Devices and Technologies (TeraTech 2023), WeP-23, Sep. 2023. |
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18. | Yu Tokizane, Shota Okada, Kenji Nishimoto, Hiroki Kishikawa, Yasuhiro Okamura, Naoya Kuse, Atsushi Kanno, Shinataro Hisatake and Takeshi Yasui : Generation of terahertz wave by photo mixing of micro soliton comb modes and its application to terahertz wireless communication, The Third Philippines - Japan Terahertz Research Workshop in 2023 (PJTW 2023), Inv5, Manila, Jul. 2023. |
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19. | Shota Okada, Kenji Nishimoto, Yu Tokizane, Hiroki Kishikawa, Yasuhiro Okamura, Naoya Kuse and Takeshi Yasui : Generation of terahertz wave at 560 GHz based on photomixing of 560-GHz-spacing soliton microcomb with UTC-PD, Photonics and Electromagnetics Research Symposium (PIERS2023), 1A4, Praha, Jul. 2023. |
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20. | Yudai Matsumura, Eiji Hase, Yu Tokizane, Naoya Kuse, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, Takahiro Kaji, Akira Otomo, Atsushi Kanno, Shintaro Hisatake and Takeshi Yasui : Dual-wavelength, low-phase-noise, optical carrier for terahertz-to-optical carrier conversion with electro-optic polymer modulator, Photonics and Electromagnetics Research Symposium (PIERS2023), 1P4a, Praha, Jul. 2023. |
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21. | Kenji Nishimoto, Kaoru Minoshima and Naoya Kuse : Spectral Broadening of a Kerr Microresonator Soliton Comb via the use of a Coupled-Ring Microresonator, Optica Advanced Photonics Congress 2023, IW2A.3, Jul. 2023. (DOI: 10.1364/IPRSN.2023.IW2A.3, Elsevier: Scopus) |
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22. | Kitora Hiroki, Funakoshi Mayu, Nishimoto Kenji, Kaoru Minoshima and Naoya Kuse : Wafer-Scale Fabrication of High-Q Ta2O5 Microresonator, Optica Advanced Photonics Congress 2023, IM3A.2, Jul. 2023. |
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23. | Yudai Matsumura, Eiji Hase, Yu Tokizane, Naoya Kuse, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, Takahiro Kaji, Akira Otomo, Atsushi Kanno, Shintaro Hisatake and Takeshi Yasui : Terahertz-to-optical carrier conversion using optical-comb-injection-locked dual-wavelength laser light and electro-optic polymer modulator, Conference on Lasers and Electro-Optics (CLEO) Europe 2023, CC-P11, Munich, Jun. 2023. (DOI: 10.1109/CLEO/Europe-EQEC57999.2023.10232178) |
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24. | Ryo Mitsumoto, Naoya Kuse, Kazuki Inoue, Yoshiaki Nakajima, Takeshi Yasui, Kaoru Minoshima and Kazumichi Yoshii : Single-pass configuration mW-class broadband mid-infrared comb using a waveguide-type PPLN crystal, Conference on Lasers and Electro-Optics (CLEO) 2023, JTh2A.91, San Jose, May 2023. (Elsevier: Scopus) |
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25. | Yudai Matsumura, Eiji Hase, Yu Tokizane, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, Takahiro Kaji, Akira Otomo, Atsushi Kannno, Shintaro Hisatake, Naoya Kuse and Takeshi Yasui : Carrier conversion from 100-GHz THz wave to dual-wavelength optical carrier injection-locked to optical comb modes using electro-optical polymer modulator for photonic THz detection, Conference on Lasers and Electro-Optics (CLEO) 2023, JTh2A.98, San Jose, May 2023. |
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26. | Ominia Nawwar, Kaoru Minoshima and Naoya Kuse : Stepped-Frequency THz-wave Signal Generation from a dissipative Kerr microresonator soliton comb, Conference on Lasers and Electro-Optics (CLEO) 2023, SF2F.5, May 2023. (Elsevier: Scopus) |
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27. | Naoya Kuse, Kenji Nishimoto and Kaoru Minoshima : Thermally insensitive Kerr microresonator soliton comb, Conference on Lasers and Electro-Optics (CLEO) 2023, JTh2A.86, May 2023. (Elsevier: Scopus) |
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28. | Ryo Mitsumoto, Naoya Kuse, Kazuki Inoue, Yoshiaki Nakajima, Takeshi Yasui, Kaoru Minoshima and Kazumichi Yoshii : mW-Level Mid-Infrared Frequency Comb Generation Using Waveguide-Type PPLN Crystal in Single-Pass Configuration, OPIC2023: ALPS2023, ALPSp2-38, Yokohama, Apr. 2023. |
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29. | Cuevas Jonathan, Iwami Ryugo, Uchida Astushi, Kaoru Minoshima and Naoya Kuse : Solving multi-armed bandit problems using a chaotic microresonator comb, The First International Symposium on Photonic Computing, B04-3, Tokyo, Mar. 2023. |
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30. | Yudai Matsumura, Eiji Hase, Yu Tokizane, Naoya Kuse, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, Takahiro Kaji, Akira Otomo, Atsushi Kanno, Shintaro Hisatake and Takeshi Yasui : Fundamental study on optical heterodyned terahertz detection using optical-comb-injection-locked dual-wavelength laser light and electro- optic polymer modulator, pLED International symposium 2023: Exploring Invisible Light Technology, P-20, Tokushima, Mar. 2023. |
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31. | Shota Okada, Kenji Nishimoto, Yu Tokizane, Hiroki Kishikawa, Yasuhiro Okamura, Naoya Kuse and Takeshi Yasui : Microcomb-based 560-GHz terahertz wave generation for next-generation wireless communication, Photonics West 2023: OPTO 2023, 12420-38, San Francisco, Feb. 2023. (DOI: 10.1117/12.2651342, Elsevier: Scopus) |
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32. | Naoya Kuse, KENJI Nishimoto, Yu Tokizane, Shota Okada, Gabriele Navickaite, Michael Geiselmann, Kaoru Minoshima and Takeshi Yasui : Low phase noise THz generation from a Kerr microresonator soliton comb, The 12th International Symposium on Photonics and Electronics Convergence -Advanced Nanophotonics and Silicon Device Systems- (ISPEC2022), P-12, Tokyo, Dec. 2022. (DOI: 10.1038/s42005-022-01100-0) |
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33. | Hiroki Kitora, Mayu Funakoshi, Kenji Nishimoto, Takeshi Yasui, Kaoru Minoshima and Naoya Kuse : Fabrication of high-Q Ta2O5 microresonator, The 12th International Symposium on Photonics and Electronics Convergence -Advanced Nanophotonics and Silicon Device Systems- (ISPEC2022), P-13, Tokyo, Dec. 2022. |
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34. | Yudai Matsumura, Eiji Hase, Yu Tokizane, Naoya Kuse, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, Takahiro Kaji, Akira Otomo, Atsushi Kanno, Shintaro Hisatake and Takeshi Yasui : All-photonic THz detection using CW laser injection-locked to microcomb, 13th International Conference on Organic Nonlinear Optics (ICONO13), P2-13, Nara, Nov. 2022. |
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35. | Naoya Kuse, KENJI Nishimoto, Yu Tokizane, Shota Okada, Gabriele Navickaite, Michael Geiselmann, Kaoru Minoshima and Takeshi Yasui : Low Phase Noise THz Generation from a Fiber-Referenced Microresonator Soliton Comb, 2022 URSI-Japan Radio Science Meeting (URSI-JRSM 2022), Tokyo, Sep. 2022. |
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36. | Shota Okada, Nishimoto KENJI, Yu Tokizane, Naoya Kuse and Takeshi Yasui : Comparison of phase noise between mode spacing in soliton microcomb and THz radiation generated by optical-to-THz conversion of microcomb, 47th International Conference on Infrared, Millimeter and Terahertz Waves (IRMMW-THz2022), We-AM-1-2, Delft, Aug. 2022. (DOI: 10.1109/IRMMW-THz50927.2022.9896120, Elsevier: Scopus) |
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37. | Shota Okada, Nishimoto KENJI, Yu Tokizane, Hiroki Kishikawa, Yasuhiro Okamura, Naoya Kuse and Takeshi Yasui : Basic study on THz wireless communication using Kerr mcro-resonator frequency combs, 47th International Conference on Infrared, Millimeter and Terahertz Waves (IRMMW-THz2022), Mo-P-18, Delft, Aug. 2022. |
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38. | Kazumichi Yoshii, Naoya Kuse, Kazuki Inoue, Ryo Mitsumoto, Yoshiaki Nakajima, Takeshi Yasui and Kaoru Minoshima : Generation of a mW-class broadband mid-infrared comb using a waveguide-type PPLN crystal and its application to dual-comb spectroscopy, 15th Pacific Rim Conference on Lasers and Electro-Optics 2022 (CLEO-PR2022), CTuP6B-06, Sapporo, Aug. 2022. (DOI: 10.1364/CLEOPR.2022.CTuP6B_06, Elsevier: Scopus) |
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39. | Shota Okada, Kenji Nishimoto, Yu Tokizane, Naoya Kuse and Takeshi Yasui : Phase noise of THz wave generated by a combination of microresonator soliton comb with uni-traveling-carrier photodiode, 15th Pacific Rim Conference on Lasers and Electro-Optics 2022 (CLEO-PR2022), P-CM3-03, Sapporo, Aug. 2022. (DOI: 10.1364/CLEOPR.2022.P_CM3_03, Elsevier: Scopus) |
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40. | Yu Tokizane, Yasuhiro Okamura, Hiroki Kishikawa, Naoya Kuse and Takeshi Yasui : THz-wave generation and modulation for wireless communication using mIcro soliton comb, Conference on Lasers and Electro-Optics 2022 (CLEO2022), AW5L.2, San Jose, May 2022. (Elsevier: Scopus) |
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41. | Naoya Kuse, KENJI Nishimoto, Yu Tokizane, Shota Okada, Kaoru Minoshima and Takeshi Yasui : Low noise 560 GHz generation from a fiber-teferenced Kerr microresonator soliton comb, Conference on Lasers and Electro-Optics 2022 (CLEO2022), JW3B.1, San Jose, May 2022. |
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42. | KENJI Nishimoto, Kaoru Minoshima, Takeshi Yasui and Naoya Kuse : Thermal control of Kerr microresonator soliton comb via an optical sideband, Conference on Lasers and Electro-Optics 2022 (CLEO2022), STu1C.7, San Jose, May 2022. (Elsevier: Scopus) |
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43. | Naoya Kuse and Kaoru Minoshima : Injection locking of two CW lasers via a Kerr microresonator soliton comb for low noise THz generation, Conference on Lasers and Electro-Optics (CLEO) 2022, Vol.SM2F.7, San Jose, May 2022. (DOI: 10.1364/CLEO_SI.2022.SM2F.7, Elsevier: Scopus) |
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44. | Yu Tokizane, Okada Shota, Yasuhiro Okamura, Hiroki Kishikawa, Naoya Kuse and Takeshi Yasui : Investigation of THz-wave generation using micro-resonator frequency comb with spontaneous amplified emission, The 11th Advanced Lasers and Photon Sources (ALPS2022), ALPSp-28, Yokohama, Apr. 2022. |
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45. | Yu Tokizane, Yasuhiro Okamura, Hiroki Kishikawa, Naoya Kuse and Takeshi Yasui : Modulation of THz-wave for THz wireless communication using micro soliton comb, International Symposium on Novel maTerials and quantum Technologies 2021 (ISNTT2021), P2-248-3, Online, Dec. 2021. |
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46. | Nishimoto Kenji, Kaoru Minoshima, Takeshi Yasui and Naoya Kuse : Thermal control of a Kerr microresonator soliton comb via an optical sideband, International Symposium on Novel maTerials and quantum Technologies ISNTT 2021, S08-3, Online, Dec. 2021. |
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47. | Naoya Kuse, Kenji Nishimoto, Takeshi Yasui and Kaoru Minoshima : Phase noise reduction of a dissipative Kerr-microresonator soliton comb by a sideband cooling, Conference on Lasers and Electro-Optics (CLEO) 2021, JW1A.59, Online, May 2021. (DOI: 10.1364/CLEO_AT.2021.JW1A.59, Elsevier: Scopus) |
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48. | Naoya Kuse, Takeshi Yasui and Kaoru Minoshima : Rapid and large scanning of a microresonator soliton comb with the frequency-shift tracking of all comb modes, Conference on Lasers and Electro-Optics (CLEO) 2021, SW4A.1, Online, May 2021. (DOI: 10.1364/CLEO_SI.2021.SW4A.1, Elsevier: Scopus) |
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49. | Kitora Hiroki, Kaoru Minoshima, Takeshi Yasui and Naoya Kuse : Simultaneous detection of distance and velocity via asymmetric carrier-suppressed double sideband modulation with a Kerr-microresonator soliton comb, Conference on Lasers and Electro-Optics (CLEO) 2021, SM1G.4, Online, May 2021. (DOI: 10.1364/CLEO_SI.2021.SM1G.4, Elsevier: Scopus) |
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50. | Kenji Nishimoto, Kaoru Minoshima, Takeshi Yasui and Naoya Kuse : Frequency-modulated comb LiDAR without wavelength division de-multiplexer, Conference on Lasers and Electro-Optics (CLEO) 2021, SM1G.6, Online, May 2021. (DOI: 10.1364/CLEO_SI.2021.SM1G.6, Elsevier: Scopus) |
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51. | Yu Tokizane, Naoya Kuse, Kenji Nishimoto, Kaoru Minoshima and Takeshi Yasui : 560 GHz Terahertz Wave Generation Using A Soliton Comb, 45th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz 2020), Online, Nov. 2020. (Elsevier: Scopus) |
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52. | Kazumichi Yoshii, Hong F.-L., Takeshi Yasui, Kaoru Minoshima and Naoya Kuse : Ultra-broadband single-branch optical frequency comb using a periodically poled lithium niobate waveguide, Conference on Lasers and Electro-Optics (CLEO) 2020, SF2G.6, Online, May 2020. (Elsevier: Scopus) |
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53. | Kenji Nishimoto, Kaoru Minoshima, Takeshi Yasui and Naoya Kuse : Generation of a dissipative Kerr-microresonator soliton comb pumped by a MHz linewidth DFB laser, Conference on Lasers and Electro-Optics (CLEO) 2020, SW3J.3, Online, May 2020. (DOI: 10.1364/CLEO_SI.2020.SW3J.3, Elsevier: Scopus) |
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54. | Naoya Kuse and M. E. Fermann : Frequency-modulated comb LIDAR, CLEO 2020, Vol.SM2N.3, San Jose, May 2020. (DOI: 10.1364/CLEO_SI.2020.SM2N.3, Elsevier: Scopus) |
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55. | Naoya Kuse and M. E. Fermann : Frequency-modulated comb LIDAR, SPIE Photonics West, OPTO 2020, 11287-33, San Francisco, Feb. 2020. (DOI: 10.1063/1.5120321) |
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56. | Naoya Kuse, T. Tetsumoto, G. Navickaite, M. Geiselmann and M. E. Fermann : Continuous scanning of a dissipative Kerr micro-resonator soliton comb, SPIE Photonics West, LASE 2020, 11266-15, San Francisco, Feb. 2020. |
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57. | Naoya Kuse, T. Tetsumoto and M. E. Fermann : Scanning of a dissipative Kerr-microresonator soliton comb for direct optical frequency comb spectroscopy, CLEO Europe 2019, ED-P.27, Munich, Jun. 2019. (DOI: 10.1109/CLEOE-EQEC.2019.8872546, Elsevier: Scopus) |
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58. | A. Rolland, Naoya Kuse and M. E. Fermann : Phase locking of a tunable OEO to an optical frequency comb for microwave synthesis from an optical reference, CLEO Europe 2019, ED-5.3, Munich, Jun. 2019. (DOI: 10.1364/CLEO_SI.2019.SW4G.4, Elsevier: Scopus) |
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59. | Y. Li, A. Rolland, K. Iwamoto, Naoya Kuse, M. E. Fermann and T. Nagatsuma : Low-noise THz-wave generation from a dual-wavelength fiber Brillouin cavity coupled to a UTC-photodiode, CLEO 2019, SW4F.6, San Jose, May 2019. (DOI: 10.23919/CLEO.2019.8749820, Elsevier: Scopus) |
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60. | A. Rolland, Naoya Kuse and M. E. Fermann : Phase locking of a tunable OEO to an optical frequency comb for microwave synthesis from an optical reference, CLEO 2019, SW4G.4, San Jose, May 2019. (DOI: 10.23919/CLEO.2019.8750496, Elsevier: Scopus) |
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61. | Naoya Kuse, T. Tetsumoto, Y. Xuan and M. E. Fermann : Continuous scanning of a dissipative Kerr-microresonator soliton comb by Pound-Drever-Hall locking, CLEO 2019, SF2I.5, San Jose, May 2019. (DOI: 10.1364/CLEO_SI.2019.SF2I.5, Elsevier: Scopus) |
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62. | Naoya Kuse, T. C. Briles, S. B. Papp and M. E. Fermann : Control of Kerr-microresonator optical frequency comb by a dual-parallel Mach-Zehnder interferometer, 2019 Conference on Lasers and Electro-Optics (CLEO)≈, SF2I.7, San Jose, May 2019. (DOI: 10.23919/CLEO.2019.8750485, Elsevier: Scopus) |
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63. | A. Rolland, Naoya Kuse and Martin E. Fermann : Stabilization of a Tunable OEO towards Precision Microwave Synthesis from an Optical Reference, IFCS-EFTF 2019, MoAT3.2, Orlando, Apr. 2019. |
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64. | A. Rolland, Naoya Kuse, P. Li, J. Jiang, M. Cassinerio and Martin E. Fermann : Ultra-Broadband Optical Synthesis at the 10-18 Fractional Instability Level, IFCS-EFTF 2019, WeAT4.1, Orlando, Apr. 2019. |
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65. | Naoya Kuse, A. Rolland, N. Ohmae, P. Li, J. Jiang, M. Cassinerio, C. Langrock, H. Katori and M. E. Fermann : (Invited)Optical frequency combs with 10^-18 relative frequency instability, KEIO symposium on microresonator frequency comb, Hiyoshi, Japan, Dec. 2018. |
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66. | Naoya Kuse, T. C. Briles, S. B. Papp and Martin E. Fermann : Control of Kerr-microresonator optical frequency comb by a dual-parallel Mach-Zehnder interferometer, KEIO symposium on microresonator frequency comb, Hiyoshi, Japan, Dec. 2018. |
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67. | Y. Li, Naoya Kuse and M. E. Fermann : A photonic system for broadband microwave measurement, SPIE/COS Photonics Asia 2018, Beijing, Oct. 2018. |
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68. | Naoya Kuse and M. E. Fermann : A high sensitivity photonic frequency discriminator for low phase noise tunable micro/mm wave synthesis, IMS 2018, Th1E-3, Philadelphia, Jun. 2018. (DOI: 10.1109/MWSYM.2018.8439482, Elsevier: Scopus) |
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69. | Y. Li, Naoya Kuse and M. E. Fermann : Photonic-assisted Wideband Microwave Measurement, IMS 2018, THIF1-9, Philadelphia, Jun. 2018. (DOI: 10.1109/MWSYM.2018.8439585, Elsevier: Scopus) |
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70. | Y. Li, Naoya Kuse and M. E. Fermann : Photonic Measurement of Broadband Microwave Bursts, CLEO 2018, JTh2A, San Jose, May 2018. |
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71. | Naoya Kuse and M. E. Fermann : Low phase noise tunable OEO locked to a high sensitivity phase noise analyzer, IFCS 2018, TO234, Olympic Valley, USA, May 2018. |
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72. | A. Rolland, E. Meade, Y. Li, Naoya Kuse, P. Li, J. Jiang, M. Cassinerio and M. E. Fermann : Digitally Controlled Precision Optical Frequency Comb, EFTF-IFCS 2017, C3P-L, Besancon, France, Jul. 2017. |
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73. | N. Ohmae, Naoya Kuse, M. E. Fermann and H. Katori : All-polarization-maintaining Er:fiber comb for comparison of Sr, Yb, and Hg optical lattice clocks with fractional instability of 10-17 at 1 s, EFTF-IFCS 2017, D1L-A, Besancon, France, Jul. 2017. |
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74. | Naoya Kuse and M. E. Fermann : High Sensitivity Phase Noise Analyzer Using an Electro-Optic Comb, EFTF-IFCS 2017, C2L-D, Besancon, France, Jul. 2017. |
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75. | Naoya Kuse and M. E. Fermann : Phase noise reduction of an RF oscillator by photonic-based highly sensitive phase noise analyzer, CLEO Europe 2017, ED-P.1, Munich, Jun. 2017. |
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76. | Naoya Kuse and M. E. Fermann : Locking of two widely separated cw lasers through a two-wavelength delayed self-heterodyne interferometer, CLEO 2017, SF2L., San Jose, May 2017. |
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77. | Naoya Kuse, N. Ohmae, C. -C. Lee, T. R. Schibli, H. Katori and M. E. Fermann : (Invited)Ultra-low Noise Robust Er Fiber-based Optical Frequency Combs with a Graphene Modulator, CLEO 2017, San Jose, May 2017. |
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78. | Naoya Kuse, J. Jiang, C. -C. Lee, T. R. Schibli and M. E. Fermann : Precision polarization-maintaining Er optical frequency comb based on a nonlinear amplifying loop mirror, CLEO 2016, SM3H.4, San Jose, Jun. 2016. |
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79. | N. Ohmae, Naoya Kuse, M. E. Fermann and H. Katori : Single-Port Er Fiber Comb for High-Stability Frequency Comparison of Optical Lattice Clocks, IFCS 2016, New Orleans, May 2016. |
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80. | Naoya Kuse and M. E. Fermann : Full stabilization of an electro-optic comb to a mode-locked fiber comb, OFC 2016, W3K.1, Aneheim, USA, Mar. 2016. |
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81. | Naoya Kuse, J. Jiang, C.-C. Lee, Y. Yun, T. R. Schibli and M. E. Fermann : Er comb fiber laser with fceo noise below 0.2 rad, CLEO Pacific Rim 2015, 25A2-2, Busan, Aug. 2015. |
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82. | Naoya Kuse, C. -C. Lee, J. Jiang, C. Mohr, T. R. Schibli and M. E. Fermann : Graphene modulator applied to either fceo or frep Er comb control, CLEO Europe 2015, ED-1b.1, Munich, Jun. 2015. |
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83. | Naoya Kuse, C. -C. Lee, J. Jiang, C. Mohr, T. R. Schibli and M. E. Fermann : Ultra low noise all polarization-maintaining fiber-based Er optical frequency combs, CLEO 2015, SW4G.4, San Jose, May 2015. (DOI: 10.1364/CLEO_SI.2015.SW4G.4, Elsevier: Scopus) |
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84. | Naoya Kuse, C. -C. Lee, J. Jiang, C. Mohr, T. R. Schibli and M. E. Fermann : Ultra-low noise Er frequency combs, IFCS-EFTF2015, Denver, Apr. 2015. |
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85. | Naoya Kuse, Akira Ozawa and Yohei Kobayashi : Dual-comb saturated absorption spectroscopy, CLEO 2013, CTu2I2, San Jose, May 2013. |
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86. | Takuma Nakamura, Akira Ozawa, Isao Ito, Naoya Kuse, Mamoru Endo, Masao Takamoto, Noriaki Ohmae, Hidetoshi Katori and Yohei Kobayashi : Improvement of the phase coherence of Yb-fiber laser by reduction of the pump intensity noise for optical clock comparison, Ultrafast Optics 2013, Davos, Mar. 2013. |
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87. | Naoya Kuse, Akira Ozawa and Yohei Kobayashi : Coherent dual-comb spectroscopy with frequency combs stabilized by free-running CW lasers, CLEO 2012, CF2C.6, San Jose, May 2012. |
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88. | Naoya Kuse, Yutaka Nomura, Akira Ozawa, Makoto Kuwata-Gonokami and Yohei Kobayashi : Passive synchronization of repetition and offset frequency between two mode-locked Yb-doped fiber lasers, CLEO2011, JThB121, Baltimore, May 2011. |
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89. | Naoya Kuse, Makoto Kuwata-Gonokami, Yutaka Nomura, Shuntaro Watanabe and Yohei Kobayashi : Experimental Study of Pulse Evolution in a 30-fs Mode-Locked Yb-Fiber Oscillator, CLEO/QELS 2010, San Jose, 2010. |
1. | Kodai Yamaji, Kenji Nishimoto, Yu Tokizane, Naoya Kuse and Takeshi Yasui : ファイバー接続Si3N4微小光共振器からのマイクロ光コム発生, 第85回応用物理学会秋季学術講演会, 20p-C301-5, Sep. 2024. |
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2. | 宇田 圭佑, 光本 涼, Naoya Kuse, Yoshiaki Nakajima, Takeshi Yasui, Kaoru Minoshima and Kazumichi Yoshii : 全偏波保持エルビウムファイバーコムを光源とする導波路型PPLN結晶による広帯域中赤外コム発生, 第85回応用物理学会秋季学術講演会, 18a-P02-1, Sep. 2024. |
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3. | Naoya Kuse : マイクロコムを使った光アクセアラレーター, 第85回応用物理学会秋季学術講演会, Sep. 2024. |
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4. | Yudai Matsumura, Eiji Hase, Yu Tokizane, Naoya Kuse, Takeo Minamikawa, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, 梶 貴博, 大友 明, 菅野 敦史, 久武 信太郎 and Takeshi Yasui : OOK変調THz波のTHz/光キャリア変換, 電子情報通信学会ソサエティ大会 2024, C-14-05, Sep. 2024. |
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5. | Takumi Kikuhara, 牧本 宣大, Yu Tokizane, Naoya Kuse, Yudai Matsumura, Hiroki Kishikawa, 菅野 敦史, 久武 信太郎, Yasuhiro Okamura and Takeshi Yasui : ヘテロダイン検波を用いた560GHz帯マイクロ光コム駆動型THz通信, 電子情報通信学会ソサエティ大会 2024, C-14-02, Sep. 2024. |
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6. | Naoya Kuse : 結合微小共振器によるマイクロコム発生, 電子情報通信学会LQE 8月研究会, Aug. 2024. |
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7. | Naoya Kuse : マイクロコムによる低雑音THz波発生, 第3期第2回 光集積及びシリコンフォトニクス(PICS)研究会, Jul. 2024. |
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8. | Naoya Kuse : マイクロ光コムを使ったLiDAR, OPIE'24, Apr. 2024. |
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9. | HITOTSUMATSU Daichi, Kaoru Minoshima and Naoya Kuse : 光ファイバーのレイリー後方散乱を用いた非線形主成分分析の並列化, 第71回応用物理学会秋季学術講演会, 25a-12B-9, Mar. 2024. |
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10. | Yudai Matsumura, Eiji Hase, Yu Tokizane, Naoya Kuse, Takeo Minamikawa, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, 梶 貴博, 大友 明, 菅野 敦史, 久武 信太郎 and Takeshi Yasui : 光コム注入同期CWレーザーを用いたオール光型THz検出 (3) ~変調THz信号検出に関する検討~, 第71回応用物理学会春季学術講演会, 25p-11E-4, Mar. 2024. |
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11. | KENJI Nishimoto, Kaoru Minoshima and Naoya Kuse : 結合リング型微小光共振器を利用した赤・青側デチューニングマイクロコムの発生, 第71回応用物理学会春季学術講演会, 22p-13N-1, Mar. 2024. |
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12. | Takumi Kikuhara, 牧本 宜大, Yu Tokizane, Naoya Kuse, Yudai Matsumura, Hiroki Kishikawa, 菅野 敦史, 久武 信太郎, Yasuhiro Okamura and Takeshi Yasui : マイクロ光コム駆動型テラヘルツ通信における位相ノイズの評価, 電子情報通信学会総合大会2024, C-14-09, Mar. 2024. |
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13. | Yudai Matsumura, Eiji Hase, Yu Tokizane, Naoya Kuse, Takeo Minamikawa, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, 梶 貴博, 大友 明, 菅野 敦史, 久武 信太郎 and Takeshi Yasui : 電気光学ポリマー変調器と光コムを用いたTHz/光キャリア変換, 電子情報通信学会総合大会2024, C-14-08, Mar. 2024. |
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14. | Ryo Mitsumoto, Naoya Kuse, Yoshiaki Nakajima, Takeshi Yasui, Kaoru Minoshima and Kazumichi Yoshii : 導波路型 PPLN 結晶によるmW級中赤外光発生に最適化されたEr ファイバーコムシステム, 50周年記念レーザー学会 学術講演会 第44回年次大会, B10-19p-IX-01, Jan. 2024. |
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15. | 宇田 圭佑, 光本 涼, Naoya Kuse, Yoshiaki Nakajima, Takeshi Yasui, Kaoru Minoshima and Kazumichi Yoshii : 全偏波保持エルビウムファイバーコムを光源とする導波路型PPLN結晶によるmW級中赤外コム発生, 50周年記念レーザー学会 学術講演会 第44回年次大会, P01-19p-P-05, Jan. 2024. |
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16. | Naoya Kuse : マイクロコムによる光アクセラレーター, 一般社団法人レーザー学会学術講演会第44回年次大会, B09-19p-IX-01, Jan. 2024. |
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17. | Yu Tokizane, Takumi Kikuhara, 牧本 宣大, Naoya Kuse, Yudai Matsumura, Hiroki Kishikawa, 菅野 敦史, 久武 信太郎, 岡村 康弘 and Takeshi Yasui : マイクロ光コムを用いたテラヘルツ波通信おける多値変調の検討, Optics & Photonics Japan 2023, 29aF6, Nov. 2023. |
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18. | Naoya Kuse : マイクロ光をコムを使ったLiDAR, Optics&Photonics Japan 2023, 29pGS5, Nov. 2023. |
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19. | 光本 涼, Naoya Kuse, Yoshiaki Nakajima, Takeshi Yasui, Kaoru Minoshima and Kazumichi Yoshii : 導波路型PPLN結晶を用いたmW級広帯域中赤外光発生のためのErファイバーコムシステムの開発, Optics & Photonics Japan 2023, 28pC12, Nov. 2023. |
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20. | Takumi Kikuhara, 牧本 宣大, Yu Tokizane, Naoya Kuse, Yudai Matsumura, Hiroki Kishikawa, 菅野 敦史, 久武 信太郎, Yasuhiro Okamura and Takeshi Yasui : マイクロ光コムを用いたテラヘルツ通信における位相変調方式の検討, 第84回応用物理学会秋季学術講演会, 20p-B203-2, Sep. 2023. |
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21. | Naoya Kuse : 集積光コム光源(マイクロコム)と通信への応用, InterOpto 2023, Jun. 2023. |
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22. | YUDAI Matsumura, Eiji Hase, Yu Tokizane, Naoya Kuse, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, 梶 貴博, 大友 明, 菅野 敦史, 諸橋 功, 久武 信太郎 and Takeshi Yasui : マイクロ光コム注入同期 CW レーザーを用いたオール光型 THz 検出(2) ~光キャリアと変調サイドバンドのRFビート信号検出~, 第70回応用物理学会春季学術講演会, 17p-A202-4, Mar. 2023. |
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23. | Yu Tokizane, Shota Okada, KENJI Nishimoto, Hiroki Kishikawa, Yasuhiro Okamura, Naoya Kuse, 菅野 敦史, 久武 信太郎 and Takeshi Yasui : マイクロ光コム注入同期2モード光のフォトミキシングを用いたオール光型テラヘルツ通信, 第70回応用物理学会春季学術講演会, 17p-A202-3, Mar. 2023. |
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24. | Naoya Kuse, KENJI Nishimoto and Kaoru Minoshima : 熱鈍感なマイクロコム, 第70回応用物理学会春季学術講演会, 18p-A501-11, Mar. 2023. |
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25. | Naoya Kuse : マイクロコムの制御:コムモード掃引と低位相雑音化, レーザー学会学術講演会第43回年次大会, S07-20a-VI-03, Jan. 2023. |
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26. | Kazumichi Yoshii, RYO Mitsumoto, Naoya Kuse, Kazuki Inoue, Yoshiaki Nakajima, Takeshi Yasui and Kaoru Minoshima : 導波路型PPLN結晶を用いた広帯域中赤外デュアルコム分光, レーザー学会 学術講演会 第43回年次大会, E06-19p-IX-02, Jan. 2023. |
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27. | KENJI Nishimoto, Kaoru Minoshima and Naoya Kuse : 結合リング型微小光共振器を利用したマイクロコムの広帯域化, レーザー学会学術講演会第43回年次大会, F01-19a-XII-04, Jan. 2023. |
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28. | RYO Mitsumoto, Naoya Kuse, Kazuki Inoue, Yoshiaki Nakajima, Takeshi Yasui, Kaoru Minoshima and Kazumichi Yoshii : 導波路型PPLN結晶を用いたシングルパス構成広帯域中赤外コムの高出力化, レーザー学会 学術講演会 第43回年次大会, B05-18p-VI-02, Jan. 2023. |
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29. | Hiroki Kitora, Mayu Funakoshi, KENJI Nishimoto, Takeshi Yasui, Kaoru Minoshima and Naoya Kuse : マイクロコム発生のための五酸化タンタルを用いた低損失微小共振器の開発, レーザー学会 学術講演会 第43回年次大会, B04-18p-VI-03, Jan. 2023. |
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30. | Hiroki Kitora, Taira Kajisa, Takeshi Yasui, Kaoru Minoshima and Naoya Kuse : ファイバーセンサーのための2周波発振OEOの開発, 第7回フォトニクスワークショップ, 1-P-34, Nov. 2022. |
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31. | YUDAI Matsumura, Eiji Hase, Yu Tokizane, Naoya Kuse, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, 梶 貴博, 大友 明, 菅野 敦史, 久武 信太郎 and Takeshi Yasui : マイクロ光コム注入同期レーザーを用いた電気光学ポリマー変調デバイスの評価, 第7回フォトニクスワークショップ, 1-P-17, Nov. 2022. |
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32. | Shota Okada, KENJI Nishimoto, Yu Tokizane, Hiroki Kishikawa, Yasuhiro Okamura, Naoya Kuse and Takeshi Yasui : 光注入同期を用いて低ノイズ・光増強したマイクロ光コムによるテラヘルツ無線通信, 第7回フォトニクスワークショップ, 1-P-16, Nov. 2022. |
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33. | Kazumichi Yoshii, RYO Mitsumoto, Naoya Kuse, Kazuki Inoue, Yoshiaki Nakajima, Takeshi Yasui and Kaoru Minoshima : 導波路型PPLN結晶を用いた広帯域中赤外コムの開発とその応用, レーザー学会第570回研究会「次世代ファイバーレーザー技術」,招待講演, 6, Nov. 2022. |
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34. | RYO Mitsumoto, Naoya Kuse, Kazuki Inoue, Yoshiaki Nakajima, Takeshi Yasui, Kaoru Minoshima and Kazumichi Yoshii : 導波路型PPLN結晶を用いたシングルパス構成mW級広帯域中赤外コム, 日本光学会 Optics & Photonics Japan 2022, 15pE13, Nov. 2022. |
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35. | RYO Mitsumoto, Naoya Kuse, Kazuki Inoue, Yoshiaki Nakajima, Takeshi Yasui, Kaoru Minoshima and Kazumichi Yoshii : 導波路型PPLN結晶を用いた広帯域中赤外コム発生の高出力化, 第83回 応用物理学会秋季学術講演会, 22p-C302-4, Sep. 2022. |
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36. | Kazumichi Yoshii, RYO Mitsumoto, Naoya Kuse, Kazuki Inoue, Yoshiaki Nakajima, Takeshi Yasui and Kaoru Minoshima : 導波路型PPLN結晶を用いた広帯域中赤外デュアルコム分光計, 第83回 応用物理学会秋季学術講演会, 22p-C302-3, Sep. 2022. |
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37. | KENJI Nishimoto, Hiroki Kitora, Takeshi Yasui, Kaoru Minoshima and Naoya Kuse : 非対称・両方向チャープのサイドバンドを持つマイクロコムによる並列周波数変調コムLiDAR, 第83回応用物理学会秋季学術講演会, 22p-C302-7, Sep. 2022. |
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38. | Naoya Kuse and Kaoru Minoshima : 注入同期によるマイクロコムのコムモードの出力増幅と位相雑音転写, 第83回応用物理学会秋季学術講演会, Vol.22a-C206-4, Sep. 2022. |
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39. | Naoya Kuse, KENJI Nishimoto, Yu Tokizane, Shota Okada, Gabriele Navickaite, Geiselmann Michael, Kaoru Minoshima and Takeshi Yasui : 長尺ファイバーに安定化したマイクロコムによる低位相雑音560 GHz発生, 第83回応用物理学会秋季学術講演会, 22a-C206-5, Sep. 2022. |
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40. | YUDAI Matsumura, Eiji Hase, Yu Tokizane, Naoya Kuse, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, 梶 貴博, 大友 明, 菅野 敦史, 久武 信太郎 and Takeshi Yasui : マイクロ光コム注入同期CWレーザーを用いたオール光型THz検出(1) ~電気光学ポリマー・デバイスを用いた変調サイドバンドの光スペクトル計測~, 第83回 応用物理学会秋季学術講演会, 21p-A202-9, Sep. 2022. |
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41. | Hiroki Kishikawa, Yasuhiro Okamura, Yu Tokizane, Naoya Kuse, Takahiro Kaji, Atsushi Kanno, Shintaro Hisatake and Takeshi Yasui : Influence of Optical Signal-to-Noise Ratio of Comb Modes on THz Communication Signal Generation with Microresonator Soliton Comb, 2022年電子情報通信学会ソサイエティ大会, C-14-14, Sep. 2022. |
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42. | RYO Mitsumoto, Naoya Kuse, Kazuki Inoue, Yoshiaki Nakajima, Takeshi Yasui, Kaoru Minoshima and Kazumichi Yoshii : 導波路型PPLN結晶を用いたmW級広帯域中赤外コム発生, 2022年度 応用物理・物理系学会 中四国支部 合同学術講演会, Ap-6, Jul. 2022. |
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43. | Shota Okada, KENJI Nishimoto, Yu Tokizane, Hiroki Kishikawa, Yasuhiro Okamura, Naoya Kuse and Takeshi Yasui : マイクロ光コムの光/THz変換を用いたテラヘルツ通信の品質向上についての検討~前方励起ファイバー光増幅によるASEの抑制~, 第69回応用物理学会春季学術講演会, 25p-D315-6, Mar. 2022. |
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44. | Kazumichi Yoshii, Naoya Kuse, Kazuki Inoue, Yoshiaki Nakajima, Takeshi Yasui and Kaoru Minoshima : 導波路型PPLN結晶によるmW級中赤外コム発生とデュアルコム分光計への応用, レーザー学会 学術講演会 第42回年次大会, B03-12p-II-05, Jan. 2022. |
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45. | Shota Okada, Yu Tokizane, Naoya Kuse, KENJI Nishimoto and Takeshi Yasui : マイクロ光コムを用いたテラヘルツ通信に関する基礎検討, レーザー学会 学術講演会 第42回年次大会, G01-12a-VII-03, Jan. 2022. |
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46. | Kazumichi Yoshii, 野邑 寿仁亜, 田口 佳穂, 久井 裕介, 洪 鋒雷, Takeshi Yasui, Kaoru Minoshima and Naoya Kuse : 導波路型周期分極反転ニオブ酸リチウム結晶を用いた広帯域な可視光コム発生, レーザー学会 学術講演会 第42回年次大会, S08-12a-III-04, Jan. 2022. |
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47. | Shota Okada, KENJI Nishimoto, Yu Tokizane, Naoya Kuse and Takeshi Yasui : 単一走行キャリアフォトダイオードの光/THz変換における位相雑音特性の評価, LED総合フォーラム2022 in 徳島, P-17, Jan. 2022. |
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48. | Naoya Kuse : マイクロ光コムとその応用への道筋, 第5回日本光学会関西支部講演会, Nov. 2021. |
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49. | Yu Tokizane, Yasuhiro Okamura, Hiroki Kishikawa, Naoya Kuse and Takeshi Yasui : 電気光学変調とフォトミキシングを用いたマイクロ光コムテラヘルツ波の変調, Optics & Photonics Japan 2021, 29pE10, Oct. 2021. |
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50. | Shota Okada, Yu Tokizane, Naoya Kuse, KENJI Nishimoto and Takeshi Yasui : マイクロ光コムのフォトミキシングによって発生させたテラヘルツ波の特性評価, Optics & Photonics Japan 2021, 29pD8, Oct. 2021. |
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51. | Kazumichi Yoshii, Naoya Kuse, Kazuki Inoue, Daisuke Masunaga, Yoshiaki Nakajima, Takeshi Yasui and Kaoru Minoshima : 導波路型PPLN結晶による広帯域中赤外コム発生と分光への応用, Optics & Photonics Japan 2021, 28aE4, Oct. 2021. |
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52. | Naoya Kuse : マイクロ光周波数コムの新規制御技術の開発, 2021年電子情報通信学会 ソサイエティ大会, C-3/4-56, Sep. 2021. |
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53. | Shota Okada, Yu Tokizane, Naoya Kuse, Kenji Nishimoto and Takeshi Yasui : マイクロ光コムを用いたTHz波発生の位相ノイズ測定, 第82回応用物理学会秋季学術講演会予稿集, 13a-N105-11, Sep. 2021. |
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54. | Yu Tokizane, Yasuhiro Okamura, Hiroki Kishikawa, Naoya Kuse and Takeshi Yasui : マイクロ光コムを用いたテラヘルツ無線通信の検討, 第82回応用物理学会秋季学術講演会予稿集, 13a-N105-11, Sep. 2021. |
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55. | Naoya Kuse, Takeshi Yasui and Kaoru Minoshima : マイクロ・ソリトンコムの高速・広範囲周波数掃引と周波数変化測定, 第82回応用物理学会秋季学術講演会予稿集, 11a-N207-5, Sep. 2021. |
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56. | Kenji Nishimoto, Kaoru Minoshima, Takeshi Yasui and Naoya Kuse : マイクロ-ソリトンコムの光サイドバンドによる熱冷却, 第82回応用物理学会秋季学術講演会予稿集, 11a-N207-6, Sep. 2021. |
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57. | Kenji Nishimoto, Kaoru Minoshima, Takeshi Yasui and Naoya Kuse : 単一フォトディテクターによる直列式周波数変調コム, 第82回応用物理学会秋季学術講演会予稿集, 11a-N106-3, Sep. 2021. |
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58. | Kazumichi Yoshii, Naoya Kuse, Kazuki Inoue, Daisuke Masunaga, Yoshiaki Nakajima, Takeshi Yasui and Kaoru Minoshima : 導波路型PPLN結晶を用いた広帯域中赤外デュアルコム分光計の開発, 第82回応用物理学会秋季学術講演会予稿集, 10p-N106-9, Sep. 2021. |
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59. | 宮村 祥吾, Takeshi Yasui and Naoya Kuse : 全偏光保持・非線形偏光回転モード同期Erファイバーレーザーによる光周波数コムの開発, Optics & Photonics Japan 2020, 17aA1, Nov. 2020. |
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60. | Yu Tokizane, Kenji Nishimoto, Naoya Kuse, Kaoru Minoshima and Takeshi Yasui : マイクロソリトンコムを用いたテラヘルツ波発生(2), 第81回応用物理学会秋季学術講演会予稿集, 11p-Z24-6, Sep. 2020. |
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61. | Kenji Nishimoto, Kaoru Minoshima, Takeshi Yasui and Naoya Kuse : マイクロ・ソリトンコムの位相雑音測定, 第81回応用物理学会秋季学術講演会予稿集, 10p-Z19-1, Sep. 2020. |
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62. | Miyamura Shogo, Takeshi Yasui and Naoya Kuse : 非線形偏光回転を用いた全偏光保持Er ファイバーモード同期レーザーの開発, 2020年度 応用物理・物理系学会 中国四国支部 合同学術講演会, Bp-2, Aug. 2020. |
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63. | Yu Tokizane, Kenji Nishimoto, Naoya Kuse, Kaoru Minoshima and Takeshi Yasui : マイクロソリトンコムを用いたテラヘルツ波発生, 第67回応用物理学会春季学術講演会予稿集, 13p-B508-10, Mar. 2020. |
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64. | Kenji Nishimoto, Kaoru Minoshima, Takeshi Yasui and Naoya Kuse : DFBレーザーによるマイクロ・ソリトンコム発生, 第67回応用物理学会春季学術講演会予稿集, 12p-B415-13, Mar. 2020. |
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65. | Naoya Kuse : 新規光周波数コム光源(マイクロコム)の紹介, InterOpto 2020, Jan. 2020. |
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66. | Naoya Kuse : マイクロリング共振器を用いた光周波数コム, 第一回 電子情報通信学会支部CoEシンポジウム, Jan. 2020. |
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67. | Naoya Kuse : 超精密ファイバーコムとマイクロコムのコムモード掃引技術の開発, Reports the on topical meeting of the Laser Society of Japan, Vol.RTM19, No.35-40, 45-49, Nov. 2019. (CiNii: 1520290885028657280) |
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68. | Naoya Kuse, 鐵本 智大, G. Navickaite, M. Geiselmann and M. Fermann : マイクローソリトン光周波数コムのコムモード掃引, 第80回応用物理学会秋季学術講演会, 20p-E205-10, Sep. 2019. |
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69. | Naoya Kuse and M. Fermann : 周波数変調コムライダー, 第80回応用物理学会秋季学術講演会, 19p-E205-8, Sep. 2019. |
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70. | Ryo Oe, Takeo Minamikawa, 田上 周路, Naoya Kuse and Takeshi Yasui : 可飽和吸収ミラー型偏波保持ファイバー光コムを用いた屈折率センシング, 第80回応用物理学会秋季学術講演会, 20p-E205-8, Sep. 2019. |
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71. | Ryo Oe, Takeo Minamikawa, 田上 周路, Naoya Kuse and Takeshi Yasui : マルチパラメータ測定に基づいた光コム屈折率センシングの高度化, 第80回応用物理学会秋季学術講演会, 20p-E205-7, Sep. 2019. |
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72. | Naoya Kuse, 小澤 陽 and 小林 洋平 : Ybファイバー光周波数コムによるデュアルコム分光, 「ファイバーレーザー技術」専門委員会, Nov. 2012. |
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73. | 中村 卓磨, 伊藤 功, Naoya Kuse, 小澤 陽 and 小林 洋平 : Ybファイバーレーザーによる高精度光周波数コムの開発, 「ファイバーレーザー技術」専門委員会, Nov. 2012. |
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74. | 中村 卓磨, 伊藤 功, Naoya Kuse, 小澤 陽 and 小林 洋平 : Ybファイバーレーザーによる光周波コムの高精度制御, 第73回応用物理学会学術講演会, Sep. 2012. |
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75. | Naoya Kuse, 小澤 陽 and 小林 洋平 : 高分解能デュアルコム分光システムのFBG歪センサーへの応用, 第73回応用物理学会学術講演会, Sep. 2012. |
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76. | 中村 卓磨, Naoya Kuse, 小澤 陽 and 小林 洋平 : Ybファイバー光周波数コムの開発, 第59回 応用物理学関係連合講演会, Mar. 2012. |
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77. | Naoya Kuse, 小澤 陽 and 小林 洋平 : フリーランニングCWレーザーにより相対的に安定化したコヒーレントデュアルコム分光システム, 第59回 応用物理学関係連合講演会, Mar. 2012. |
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78. | Naoya Kuse, 小澤 陽, 伊藤 功 and 小林 洋平 : 注入同期を利用したオフセット周波数安定性の転送, 第72回応用物理学会学術講演会, Aug. 2011. |
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79. | Naoya Kuse, 野村 雄高, 小澤 陽, 五神 真 and 小林 洋平 : 2台のYbファイバーレーザーによる光周波数コムの注入同期, 応用物理学会(開催中止:予稿集のみ), Mar. 2011. |
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80. | Naoya Kuse, 野村 雄高, 小澤 陽, 五神 真 and 小林 洋平 : Ybファイバーレーザーによる光周波数コムの開発, 第71回応用物理学会学術講演会, Sep. 2010. |
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81. | 小林 洋平, Naoya Kuse, 野村 雄高 and 小澤 陽 : 超短パルス高出力Ybファイバーレーザーシステム, 超高速光エレクトロニクス研究会, Aug. 2010. |
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82. | Naoya Kuse, 野村 雄高, 五神 真, 渡部 俊太郎 and 小林 洋平 : コンパクト超短パルスYbファイバー発振器, 第70回応用物理学会学術講演会, Sep. 2009. |
1. | KIKUHARA Takumi, 牧本 宣広, Yu Tokizane, Naoya Kuse, MATSUMURA Yudai, Hiroki Kishikawa, 菅野 敦史, 久武 信太郎, Yasuhiro Okamura and Takeshi Yasui : マイクロ光コム駆動型テラヘルツ通信における多値変調方式の評価, 次世代光フォーラム2024 in 徳島, P-12, Jan. 2024. |
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2. | MATSUMURA Yudai, Eiji Hase, Yu Tokizane, Naoya Kuse, Takeo Minamikawa, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, 梶 貴博, 大友 明, 菅野 敦史, 久武 信太郎 and Takeshi Yasui : 次世代移動通信に向けたOOK信号伝送によるアイパターンの評価, 次世代光フォーラム2024 in 徳島, P-14, Jan. 2024. |
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3. | YAMAJI Kodai, NISHIMOTO Kenji, Yu Tokizane, Naoya Kuse and Takeshi Yasui : 補助光を用いた微小光共振器内熱制御によるソリトンマイクロ光コムの長期安定化, 次世代光フォーラム2024 in 徳島, P-15, Jan. 2024. |
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4. | YUDAI Matsumura, Eiji Hase, Yu Tokizane, Naoya Kuse, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, 梶 貴博, 大友 明, 菅野 敦史, 久武 信太郎 and Takeshi Yasui : 電気光学ポリマー変調器と光コムモードに注入同期された 2波長CWレーザーを用いたTHz波から近赤外光へのキャリア変換, 第7回超高速光エレクトロニクス研究会 "超高速ダイナミクスを探る先端光源と計測技術", Apr. 2023. |
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5. | YUDAI Matsumura, Eiji Hase, Yu Tokizane, Naoya Kuse, Junichi Fujikata, Hiroki Kishikawa, Masanobu Haraguchi, Yasuhiro Okamura, 梶 貴博, 大友 明, 菅野 敦史, 久武 信太郎 and Takeshi Yasui : 光コム注入同期2波長レーザー光と電気光学ポリマー変調器を用いた 光ヘテロダイン式テラヘルツ検出に関する基礎検討, 次世代光フォーラム2023 in 徳島, P-15, Feb. 2023. |
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6. | RYO Mitsumoto, Naoya Kuse, Kazuki Inoue, Yoshiaki Nakajima, Takeshi Yasui, Kaoru Minoshima and Kazumichi Yoshii : 導波路型PPLN結晶を用いたシングルパス構成広帯域中赤外コムの高出力化, 次世代光フォーラム2023 in 徳島, P-9, Feb. 2023. |
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7. | Daisuke Masunaga, Takeshi Yasui, Naoya Kuse and Kazumichi Yoshii : 導波路型非線形光学結晶を用いた波長1.5μm帯フェムト秒レーザーに関する研究, LED総合フォーラム2021 in 徳島, P-18, Feb. 2021. |
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8. | Kenji Nishimoto, Kaoru Minoshima, Takeshi Yasui and Naoya Kuse : DFBレーザーの電流変調によるマイクロ-ソリトン光周波数コムの発生, LED総合フォーラム2021 in 徳島, P-11, Feb. 2021. |
1. | Naoya Kuse and 西本 健司 : マイクロコム制御装置, 20240327, . | |
2. | Yu Tokizane, Takeshi Yasui and Naoya Kuse : 多重光周波数コム生成装置, 2024-046015 (Mar. 2024), . | |
3. | Takeshi Yasui, Naoya Kuse, Yu Tokizane, Eiji Hase, 梶 貴博, 鎌田 隼, 諸橋 功 and 久武 信太郎 : 無線受信装置, PCT/JP2023/029111 (Aug. 2023), . | |
4. | Takeshi Yasui, Naoya Kuse, Yu Tokizane, Eiji Hase, Hiroki Kishikawa, Yasuhiro Okamura and Junichi Fujikata : コヒーレント合成光電気変換装置, PCT/JP2023/ 26378 (Jul. 2023), . | |
5. | Takeshi Yasui, Naoya Kuse, Yu Tokizane, Eiji Hase, Hiroki Kishikawa, Yasuhiro Okamura, 梶 貴博, 鎌田 隼, 諸橋 功 and 久武 信太郎 : 無線受信装置, 2022-134397 (Aug. 2022), 2024-031081 (Mar. 2024), . | |
6. | Takeshi Yasui, Naoya Kuse, Yu Tokizane, Eiji Hase, Hiroki Kishikawa, Yasuhiro Okamura, 梶 貴博, 鎌田 隼, 諸橋 功 and 久武 信太郎 : 無線受信装置, 2022-134378 (Aug. 2022), 2024-031069 (Mar. 2024), . | |
7. | Takeshi Yasui, Naoya Kuse, Yu Tokizane, Eiji Hase, Hiroki Kishikawa, Yasuhiro Okamura and Junichi Fujikata : コヒーレント合成光電気変換装置, 2022-115259 (Jul. 2022), 2024-013294 (Feb. 2024), . | |
8. | Takeshi Yasui, Naoya Kuse, Yu Tokizane, Eiji Hase, Hiroki Kishikawa, Yasuhiro Okamura and Junichi Fujikata : 周波数多重無線伝送装置, 2022-82057 (May 2022), 2023-170363 (Dec. 2023), . | |
9. | Takeshi Yasui, Naoya Kuse, Yu Tokizane, Eiji Hase, Hiroki Kishikawa, Yasuhiro Okamura and Junichi Fujikata : 光電気変換装置, 2022-82054 (May 2022), 2023-170362 (Dec. 2023), . | |
10. | Naoya Kuse : 距離,速度測定装置及び距離,速度測定方法, (Mar. 2021), 2021-046608. | |
11. | Naoya Kuse : ライダー装置及びライダー制御方法, (Mar. 2021), 2021-046609. | |
12. | Naoya Kuse : 光周波数コムの周波数掃引量測定装置及び方法, (Mar. 2021), 2021-037634. | |
13. | Naoya Kuse : 光周波数コムの周波数制御装置及び方法, (Mar. 2021), 2021-037633. | |
14. | Naoya Kuse : マイクロコムの位相雑音低減化装置及び方法, (Mar. 2021), 2021-037635. | |
15. | Naoya Kuse : 光周波数コム発生装置, (Nov. 2020), 2020-183911. | |
16. | Naoya Kuse, Rolland A., Li Yihan and Fermann E. M. : Integrated photonic microwave transceiver system, (Jul. 2018), (Jan. 2019), US10498453B2 (Dec. 2019). |