Rchr
J-GLOBAL ID:202201001504420474
Update date: Jun. 06, 2024
Asai Hidehiro
アサイ ヒデヒロ | Asai Hidehiro
Affiliation and department:
Job title:
Senior researcher
Research theme for competitive and other funds (4):
- 2020 - 2023 Demonstration of multi-photon laser emission from superconducting intrinsic Josephson junctions
- 2020 - 2023 半導体量子ビット設計シミュレータQCADの開発
- 2014 - 2017 Theoretical study on Intrinsic Josephson Junction Quantum Metamaterial for novel optical devices
- 2012 - 2015 固有ジョセフソンフォトニックデバイスの数値的研究:新奇テラヘルツ帯デバイスの提案
Papers (84):
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Hidehiro Asai, Shota IIZUKA, Tohru Mogami, Junichi Hattori, Koichi Fukuda, Tsutomu Ikegami, Kimihiko Kato, Hiroshi Oka, Takahiro Mori. Device structure and fabrication process for silicon spin qubit realizing process-variation-robust SWAP gate operation. Japanese Journal of Applied Physics. 2023. 62. {SC}
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Effect of Conduction Band Edge States on Coulomb-Limiting Electron Mobility in Cryogenic MOSFET Operation. Digest of Technical Papers - Symposium on VLSI Technology 2022. 2022. T6-4
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Makoto Minohara, Shutaro Asanuma, Hidehiro Asai, Yuka Dobashi, Akane Samizo, Yasuhisa Tezuka, Kenichi Ozawa, Kazuhiko Mase, Izumi Hase, Naoto Kikuchi, et al. Elaboration of near-valence band defect states leading deterioration of ambipolar operation in SnO thin-film transistors. Nano Select. 2022. 3. 6. 1012-1020
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Koichi Fukuda, Junichi Hattori, Hidehiro Asai, Mariko Ninomiya, Junya Yaita, Junji Kotani. Cellular automaton approach for carrier degeneracy effects on the electron mobility of high electron mobility transistors. JAPANESE JOURNAL OF APPLIED PHYSICS. 2022. 61. SC
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“Cellular-Automaton Study of Degeneracy Effects on the Mobility of HEMTs. Extended Abstract of International Conference on Solid State Devices and Materials 2021. 2021. D-1-06
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MISC (79):
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Asem Elarabi, Yoshito Saito, Hidehiro Asai, Ryota Kobayashi, Ken Hayama, Keiichiro Maeda, Shuma Fujita, Yusuke Yoshioka, Yoshihiko Takano, Manabu Tsujimoto, et al. Polarized terahertz electromagnetic-wave radiation from cuprate superconductor Bi2212 mesa structures. Japanese Journal of Applied Physics. 2024. 63. 2
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イイズカ ショウタ, カトウ キミヒコ, ヤギシタ アツシ, アサイ ヒデヒロ, ウエダ テツヤ, オカ ヒロシ, ハットリ ジュンイチ, イケガミ ツトム, フクダ コウイチ, モリ タカヒロ. 招待講演 誤り訂正大規模量子コンピュータに実装可能な高速かつ低ばらつきなシリコンスピン量子ビット動作を実現する埋め込み型微小磁石の集積技術. 2021. 45. 21. 5-10
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Fukuda Koichi, Hattori Junichi, Asai Hidehiro, Yaita Junya, Kotani Junji. On the Parallelization of the Poisson-Schrodinger Cellular Automaton Method. JSAP Annual Meetings Extended Abstracts. 2021. 2021.1. 2249-2249
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Asai Hidehiro, Iizuka Shota, Ikegami Tsutomu, Hattori Junichi, Fukuda Koichi, Oka Hiroshi, Kato Kimihiko, Ota Hiroyuki, Mori Takahiro. Development of Simulator for Semiconductor Quantum Bit Design utilizing TCAD. JSAP Annual Meetings Extended Abstracts. 2021. 2021.1. 2340-2340
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飯塚将太, 加藤公彦, 八木下淳史, 浅井栄大, 上田哲也, 岡博史, 服部淳一, 池上努, 福田浩一, 森貴洋. Buried Nanomagnet Realizing High-Speed/Low-Variability Silicon Spin Qubits: Implementable in Error-Correctable Large-Scale Quantum Computers. 電子情報通信学会技術研究報告(Web). 2021. 121. 138(SDM2021 30-43)
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Books (1):
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The Oxford handbook of small superconductors
Oxford University Press 2017 ISBN:9780198738169
Committee career (2):
- 2018/05 - 現在 日本応用物理学会 光若手チャプター運営委員
- 2014/10 - 2015/09 日本物理学会領域8運営委員
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