H
Hiroshi Yamaguchi
Researcher at Nippon Telegraph and Telephone
Publications - 571
Citations - 14406
Hiroshi Yamaguchi is an academic researcher from Nippon Telegraph and Telephone. The author has contributed to research in topics: Resonator & Molecular beam epitaxy. The author has an hindex of 47, co-authored 519 publications receiving 13016 citations. Previous affiliations of Hiroshi Yamaguchi include Osaka University & Imperial College London.
Papers
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Study on MoO3−x films deposited by reactive sputtering for organic light-emitting diodes
Nobuto Oka,Hiroki Watanabe,Yasushi Sato,Hiroshi Yamaguchi,Norihiro Ito,Hiroya Tsuji,Yuzo Shigesato +6 more
TL;DR: In this paper, the role of reduced molybdenum trioxide [MoO3−x(x≤1)] films in organic light-emitting diodes, particularly from the viewpoint of the oxidation state of Mo, was investigated.
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Infrared detection with silicon nano-field-effect transistors
Katsuhiko Nishiguchi,Yukinori Ono,Akira Fujiwara,Hiroshi Yamaguchi,Hiroshi Inokawa,Yasuo Takahashi +5 more
TL;DR: In this article, the authors fabricated nanoscale silicon metal-oxide-semiconductor field effect transistors (MOSFETs) to detect an infrared (IR) signal at room temperature.
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Substituent effects on the stereochemistry in the [2 + 2] photocycloaddition reaction of homobenzoquinone derivative with variously substituted alkenes and alkynes.
TL;DR: It is concluded that a balance of repulsive steric hindrance and the attractive FMO interaction determines the stereochemical course of the [2 + 2] photoaddition of homobenzoquinone derivative with variously substituted alkenes.
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Mechanical Kerr Nonlinearity of Wave Propagation in an On-Chip Nanoelectromechanical Waveguide
TL;DR: In this article, the authors experimentally and numerically demonstrate nonlinear flexural wave propagation using an on-chip nanoelectromechanical waveguide and demonstrate the third-order nonlinear phenomena of self-phase modulation, cross-phase and four-wave mixing caused by the mechanical Kerr effect.
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Electron-spin manipulation and resonator readout in a double-quantum-dot nanoelectromechanical system.
Neill Lambert,Imran Mahboob,Michel Pioro-Ladrière,Yasuhiro Tokura,Seigo Tarucha,Hiroshi Yamaguchi +5 more
TL;DR: It is demonstrated how magnetically coupling a nanomechanical resonator to a double quantum dot confining two electrons can enable the manipulation of a single electron spin and the readout of the resonator's natural frequency.