2019(16th)
「InGaP/GaAsSb/InGaAsSb double heterojunction bipolar transistors
with 703-GHz fmax and 5.4-V breakdown voltage」
Takuya Hoshi, Norihide Kashio, Yuta Shiratori, Kenji Kurishima,
Minoru Ida, and Hideaki Matsuzaki (NTT Corporation (Japan))
「Application of a two-dimensional Butler matrix antenna array
for tile-based beamforming」
Cheng-Hung Hsieh, Yi-Ting Lin, Hsaing-Chieh Jhan, and
Zuo-Min Tsai (National Chung Cheng University (Taiwan))
「Wavelength-tunable sub-picosecond optical switch over entire
C-band using nonlinear optical loop mirror」
Ryoya Hirata, Toshihiko Hirooka, Masato Yoshida,
and Masataka Nakazawa (Tohoku University (Japan))
2018(15th)
「Demonstration of true-eigenmode propagation in few-mode fibers by selective LP mode excitation and near-field observation」
Takuto Yamaguchi(The University of Tokyo, Yokohama National University), Seiya Miura(Yokohama National University), and Yasuo Kokubun(Yokohama National University, Chubu University)
「Silicon photonics based 1×2 wavelength selective switch using fold-back arrayed-waveguide gratings」
Fumi Nakamura, Hideaki Asakura (Keio University), Keijiro Suzuki (National Institute of Advanced Industrial Science and Technology), Ken Tanizawa (National Institute of Advanced Industrial Science and Technology, Tamagawa University), Minoru Ohtsuka, Nobuyuki Yokoyama, Kazuyuki Matsumaro, Miyoshi Seki, Keiji Koshino, Kazuhiro Ikeda, Shu Namiki, Hitoshi Kawashima (National Institute of Advanced Industrial Science and Technology), and Hiroyuki Tsuda (Keio University)
「Broadband high-efficiency Doherty power amplifier based on novel phase and impedance transform structure」
Guohua Liu, Zhiwei Zhang, and Zhiqun Cheng (Hangzhou Dianzi University)
2017(14th)
「K-band 100.8 mW beamforming SOC with 249.8 ± 22.8 pico-second group-delay in 0.13 µm CMOS」
Ming-Ming Zhang, Hsien-Shun Wu, and Ching-Kuang Tzuang (Tianjin University)
「Design of broadband inverse class-F power amplifier based on resistive-reactive series of inverse continuous modes」
Min Zhang, Zongxi Tang, Weimin Shi, and Xin Cao (University of Electronic Science and Technology of China)
「A low power, VLSI object recognition processor using Sparse FIND feature for 60 fps HDTV resolution video」
Go Matsukawa, Taisuke Kodama, Yuri Nishizumi, Koichi Kajihara (Kobe University), Chikako Nakanishi (Osaka Institute of Technology), Shintaro Izumi, Hiroshi Kawaguchi (Kobe University), Toshio Goto (Toyota Motor Corporation), Takeo Kato (Toyota Central R&D Labs., Inc.), and Masahiko Yoshimoto (Kobe University)
2016(13th)
「A 12 to 24 GHz high efficiency fully integrated 0.18 μm CMOS power amplifier」
Hamed Mosalam (Egypt-Japan University of Science and Technology)
Ahmed Allam (Egypt-Japan University of Science and Technology)
Hongting Jia (Kyushu University)
Adel Abdelrahman (Egypt-Japan University of Science and Technology)
Takana Kaho (Kyushu University)
Ramesh Pokharel (Kyushu University)
2015(12th)
「A 529 GHz dynamic frequency divider in 130 nm InP HBT process」
Munkyo Seo (Sungkyunkwan University)
John Hacker (Teledyne Scientific Company)
Miguel Urteaga (Jet Propulsion Laboratory)
Anders Skalare (University of California)
Mark Rodwell (University of California)
2014(11th)
「Binocular range-sensor LSI with improved distance detection precision by coordinated pixel placement」
M. Kawano and Y. Arima
2013(10th)
「Low-power wireless on-chip microparticle manipulation withprocess variation compensation」
Y. Kishiwada, H. Iwasaki, S. Ueda, Y. Dei, Y. Miyawaki and T. Matsuoka
2012(9th)
「A Proper Security Analysis Method for CMOS Cryptographic Circuits」
Y. Takahashi and T. Matsumoto
2011(8th)
「Ring laser oscillation using silicon (111) mirrors fabricated by MEMS technology」
T. Hashimoto, K. Makimura, A. Miyamoto, K. Kanda, T. Fujita and K. Maenaka
2010(7th)
「Optical coherence tomography by all-optical MEMS fiber endoscope」
M. Nakada, C. Chong, A. Morosawa, K. Isamoto, T. Suzuki, H. Fujita, and H. Toshiyoshi
2009(6th)
「Novel multi-core fibers for mode division multiplexing: proposal and design principle」
Y. Kokubun and M. Koshiba
2008(5th)
「Polarization and frequency division multiplexed 1 Gsymbol/s, 64 QAM coherent optical transmission with 8.6 bit/s/Hz spectral efficiency over 160 km」
H. Goto, M. Yoshida, T. Omiya, K. Kasai, and M. Nakazawa
2007(4th)
「Depth Profiles of Strain in AlGaN/GaN Heterostructures Grown on Si Characterized by Electron Backscatter Diffraction Technique」
T. Ishido, H. Matsuno, T. Katayama, T. Ueda, K. Inoue, and D. Ueda
2006(3rd)
「An optically clocked transistor array (OCTA) for 40- Gb/s,bidirectional serial-to-parallel conversion of asynchronous burst optical packets」
R. Urata, R. Takahashi, T. Suemitsu, and H. Suzuki
2005(2nd)
「Planar lightwave circuit dispersion compensator using a compact arrowhead arrayed-waveguide grating」
T. Suzuki, K. Masuda, H. Ishikawa, Y. Abe, S. Kashimura, H. Uetsuka, and H. Tsuda
2004(1st)
「Demonstration of 11dB fiber-to-fiber gain in a silicon Raman amplifier」
O. Boyraz and B. Jalali