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J-GLOBAL ID:202101003583472676
Update date: Nov. 11, 2024 Kometani Reo
米谷 玲皇 | Kometani Reo
The University of Tokyo Graduate School of Frontier Sciences
About The University of Tokyo Graduate School of Frontier Sciences
Homepage URL (1): http://www.lhei.k.u-tokyo.ac.jp/index.html
Research field (7):
Manufacturing and production engineering
, Applied physics - general
, Thin-film surfaces and interfaces
, Applied materials
, Nano/micro-systems
, Nanomaterials
, Nanostructure physics
Research keywords (5):
Nanofabrication
, Nanometrology
, Charged particle beam technology
, Nanoelectromechanical Systems (NEMS)
, Nanomechanics
Research theme for competitive and other funds (13): - 2022 - 2026 超高感度光圧センシングNEMS技術創出と光-ナノ構造の相互作用の解明
- 2019 - 2021 光圧計測知的ナノメカニカルシステムの創出
- 2017 - 2021 Nanooptoelectromechanical systems for the molecular sensing
- 2015 - 2018 光路最適化したメタサーフェスを用いた表面増強ラマンデバイスの創製
- 2015 - 2017 Research on the high spatial resolution dynamic characteristics profiling technology using atomic force microscope
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- Xuesi Li, Xianyin Hu, Ang Li, Reo Kometani, Ichiro Yamada, Kazuyuki Sashida, Makiko Noma, Katsufumi Nakanishi, Yusuke Fukuda, Toshiyuki Takemori, et al. Identification of binary gases’ mixtures from time-series resistance fluctuations: A sensitivity-controllable SnO2 gas sensor-based approach using 1D-CNN. Sensors and Actuators A: Physical. 2023. 349. 114070-1-114070-11
- K. Tsumune, S. Warisawa, R. Kometani. Highly sensitive vibration measurement method of nanomechanical resonators using a convolutional neural network. Japanese Journal of Applied Physics. 2022. 61. SD. SD1038-SD1038
- R. Kometani, M. Katsuda. Miniaturization process of three-dimensional nanostructures fabricated by focused-ion-beam chemical vapor deposition. Japanese Journal of Applied Physics. 2021. 60. 12. 128002-128002
- M. Saito, S. Warisawa, and R. Kometani. Quantification method of stress depth distribution by micro-Raman spectroscopy for thin film nanomechanical resonator. Japanese Journal of Applied Physics. 2020. 59. SIII02-1-SIII02-5
- K. Sugano. Y. Tanaka, A. Uesugi, E. Maeda, R. Kometani, and Y. Isono. Detection of wavelength shift of near-infrared laser using mechanical microresonator-based sensor with Si-covered gold nanorods as optical absorber. Sensors and Actuators A: Physical. 2020. 315. 112337-1-112337-7
- 米谷 玲皇. 集束イオンビームを利用した光センシングナノメカニカルデバイスの創出. 光技術コンタクト. 2023. 61. 26-32
- Reo Kometani, Shin'ichi Warisawa. Operando Measurement of Dynamic Characteristics of Nanoelectromechanical Systems Using Scanning Electron Microscopy. 2021. 60. 3. 213-216
- Reo Kometani. Improving the properties of a graphene resonator. TANSO. 2016. 2016. 275. 191-198
- Reo Kometani, Shin'ichi Warisawa, Sunao Ishihara. Nanomanufacturing tool fabrications by focused-ion-beam chemical vapor deposition. Proceedings of the 5th International Conference on Leading Edge Manufacturing in 21st Century, LEM 2009. 2009
- Shin'ichi Warisawa, Hiroyuki Suzuki, Reo Kometani, Sunao Ishihara. Periodic cylindrical nanostructure localization by means of affinity control in diblock copolymer microphase separation. Proceedings of the 5th International Conference on Leading Edge Manufacturing in 21st Century, LEM 2009. 2009
- 博士(理学)
- 2020/04 - 文部科学省 令和2年度科学技術分野の文部科学大臣表彰 若手科学者賞 集束イオンビーム3次元ナノ造形技術とナノメカニクス研究
- 2019/11 - 一般社団法人 日本機械学会 マイクロ・ナノ工学部門 部門一般表彰 貢献表彰
- 2019/02 - 一般社団法人 日本機械学会 マイクロ・ナノ工学部門 優秀講演論文表彰 スパイラル型ブルズアイアンテナを有する光機械振動子の作製と光波長検出特性評価
- 2016/10 - 一般社団法人 電気学会 第33回「センサ・マイクロマシンと応用システム」シンポジウム 優秀技術論文賞 金ナノロッド構造を用いた光熱変換によるレーザ波長計測マイクロ振動子デバイス
- 2016/04 - 公益社団法人 応用物理学会 2016年春季学術講演会Poster Award 波長計測のためのサブ波長ホールアレイを有する光ナノメカニカル振動子の作製
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