Tokunaga Yoshiaki | Optoelectronic Device System RD Center, Kanazawa Institute of Technology
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概要
関連著者
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Tokunaga Yoshiaki
Optoelectronic Device System R & D Center Kanazawa Institute Of Technology
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Tokunaga Yoshiaki
Optoelectronic Device System RD Center, Kanazawa Institute of Technology
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Okayama Toshinori
Graduate School Of Electrical Engineering And Electronics Of Kanazawa Institute Of Technology
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Tokunaga Yoshiaki
Optoelectronic Device System Research And Development Center Of Kanazawa Institute Of Technology
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Tokunaga Yoshiaki
Odes R&d Center Of Kanazawa Institute Of Technology
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Tokunaga Yoshiaki
Optoelectronics Device System Research And Development Center Kanazawa Institute Of Technology
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TAMURA Keimei
Department of Electrical Engineering, Kanazawa Technical College
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Tamura Keimei
Department Of Electrical Engineering Kanazawa Technical College
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Okayama Toshinori
Graduate School of Engineering, Kanazawa Institute of Technology
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Kato Kyoko
Graduate School of Engineering, Kanazawa Institute of Technology
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Okayama Toshinori
Graduate School Of Engineering Kanazawa Institute Of Technology
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Tokunaga Y
Optoelectronic Device System R&d Center Kanazawa Institute Of Technology
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Kanno S
Optoelectronic Device System R&d Center Kanazawa Institute Of Technology
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Kanno Shohei
Graduate School Of Electrical Engineering And Electronics Of Kanazawa Institute Of Technology
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Kanno Shohei
Optoelectronic Device System R & D Center Kanazawa Institute Of Technology
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Sawabe Yuuya
Optoelectronic Device System R&D Center, Kanazawa Institute of Technology
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Kato Kyoko
Graduate School Of Engineering Kanazawa Institute Of Technology
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Sawabe Yuuya
Optoelectronic Device System R&d Center Kanazawa Institute Of Technology
著作論文
- New technique for the formation of a three-dimension high-speed imaging of the subsurface crack of the opaque material measured by photoacoustic microscope
- Analysis of Acoustic Domain Fluxes in a Piezoelectric Semiconductor n-CdS Measured by Brillouin Scattering Method
- Numerical simulation of dynamics of GHz acoustic phonon fluxes amplified from thermal background phonons in a n-type CdS single crystal