学際科学フロンティア研究所活動報告書_令和元年度
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1. High-efficiency single-photon generation via large-scale active time multiplexing, F. Kaneda, P. G. Kwiat, Science Advances, 5 10 (20191000),pp. eaaw8586-. 2. Direct generation of frequency-bin entangled photons via two-period quasi-phase-matched parametric downconversion, Kaneda Fumihiro, Suzuki Hirofumi, Shimizu Ryosuke, Edamatsu Keiichi, OPTICS EXPRESS, 27 2 (20190121),pp. 1416-1424. Fedor Bergmann, Jia Jun Wong, Austin Graf, Paul Kwiat, 9, Springer, 20190100, .2. Time multiplexing for high-efficiency single-photon generation, Fumihiro Kaneda, Paul Kwiat, The 2nd International Forum on Quantum Metrology and Sensing(IFQMS), 20191200, en, 2, . 3. Development and characterization of a waveguide SPDC source of highly-nondegenerate polarization-entangled photon pairs, Kristina A. Meier, Fumihiro Kaneda, Paul G. Kwiat, Single photon workshop 2019, 20191000, en, 2, . 4. High-Efficiency Time-Multiplexed Single-Photon Source, Colin P. Lualdi, Fumihiro Kaneda, Joseph C. Chapman, Paul G. Kwiat, Single photon workshop, 20191000, en, 2, . 5. High-Efficiency Time-Multiplexed Single-Photon Source, Colin P. Lualdi, Fumihiro Kaneda, Joseph C. Chapman, Paul G. Kwiat, 50th Annual Meeting of the APS Division of Atomic, Molecular and Optical Physics APS Meeting , 20190500, en, 2, . 6. Development of highly nondegenerate polarization entanglement on a waveguide SPDC source, Kristina Meier, Fumihiro Kaneda, Paul Kwiat, 50th Annual Meeting of the APS Division of Atomic, Molecular and Optical Physics APS Meeting, 20190500, en, 2, . High-precision characterization of quantum optical resources via classical measurements 金田文寛.○書籍1. Quantum Photonics: Pioneering Advances and Emerging Applications, Michelle Victora, Fumihiro Kaneda, ○国際会議発表1. High-precision characterization of quantum optical resources via classical measurements, Fumihiro Kaneda, Jo Oikawa, Yasuyoshi Mitsumori, Keiichi Edamatsu, The 2nd International Forum on Quantum Metrology and Sensing(IFQMS),20191200, en, 2, . ○受賞1. 20191200, The 2nd International Forum on Quantum Metrology and Sensing(IFQMS),Poster award, ○論文1. A 47.14-uW 200-MHz MOS/MTJ-Hybrid Nonvolatile Microcontroller Unit Embedding STT-MRAM and FPGA for IoT Applications., Masanori Natsui, Daisuke Suzuki, Akira Tamakoshi, Toshinari Watanabe, Hiroaki Honjo, Hiroki Koike, Takashi Nasuno, Yitao Ma, Takaho Tanigawa, Yasuo Noguchi, Mitsuo Yasuhira, Hideo Sato, Shoji Ikeda, Hideo Ohno, Tetsuo Endoh, Takahiro Hanyu, J. Solid-State Circuits, 54 11(2019),pp. 2991-3004. 2. An FPGA-Accelerated Fully Nonvolatile Microcontroller Unit for Sensor-Node Applications in 40nm CMOS/MTJ-Hybrid Technology Achieving 47. 14μW Operation at 200MHz., Masanori Natsui, Daisuke ―74―鈴木 大輔 助教 [情報・システム]

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