Takagi Kenshiro | Institute Of Industrial Science The University Of Tokyo
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概要
関連著者
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Takagi Kenshiro
Institute Of Industrial Science The University Of Tokyo
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Takagi Kenshiro
Institute Of Industrial Science University Of Tokyo
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TAKAGI Kenshiro
Institute of Industrial Science, University of Tokyo
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Sakai Keiji
Institute Of Industrial Science University Of Tokyo
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Sakai Kiyomi
Kansai Advanced Research Center Communications Research Laboratory The Ministry Of Posts And Telecom
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Sakai K
宮崎大
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SAKAI Keiji
Institute of Industrial Science, University of Tokyo
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Choi Pak-kon
Institute Of Industrial Science University Of Tokyo
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Takagi K
Univ. Tokyo Tokyo Jpn
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Negishi Katsuo
Institute Of Industrial Science The University Of Tokyo
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高木 堅志郎
東大 生産技研
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Takagi K
Public Works Res. Inst. Ministry Of Construction Tsukuba Jpn
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Takagi K
Institute Of Industrial Science University Of Tokyo
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Yamamoto Ken
Institute Of Industrial Science The University Of Tokyo
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NEGISHI Katsuo
Institute of Industrial Science, the University of Tokyo
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Negishi Katsuo
Institute Of Industrial Science University Of Tokyo
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高木 堅志郎
東大・生研
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Sakamoto Naoto
Institute Of Industrial Science University Of Tokyo
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高木 堅志郎
東大生研
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Yamamoto K
Kobayasi Institute Of Physical Research
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SAKAMOTO Naoto
Institute of Industrial Science, University of Tokyo
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Hattori K
Department Of Materials Science And Chemical Engineering Faculty Of Engineering Shizuoka University
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Matsuoka Tatsuro
Institute Of Industrial Science University Of Tokyo:(present Address)department Of Chemical Engineer
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Yamamoto K
Storage Media Systems Development Center Matsushita Elec. Ind. Co. Ltd.
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YAMAMOTO Ken
Institute of Industrial Science, University of Tokyo
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Hattori K
Graduate School Of Materials Science Nara Institute Of Science And Technology
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Sakamoto N
Institute Of Industrial Science University Of Tokyo
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Hattori Koichiro
Institute of Industrial Science, University of Tokyo
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Ozawa Harue
Institute Of Industrial Science University Of Tokyo
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Choi Pak-kon
Department Of Physics Meiji University
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Tanaka Hajime
Institute of Industrial Science, University of Tokyo
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MITANI Shichiro
Institute for Atomic Energy Research, Osaka City University
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KOKUBO Akira
Institute of Industrial Science, University of Tokyo
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Kokubo Akira
Univ. of Tokyo
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OZAWA Harue
Institute of Industrial Science, University of Tokyo
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Hosoda Maiko
Institute Of Industrial Science University Of Tokyo
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MITANI Shujiro
Institute of Industrial Science, University of Tokyo
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Mitani S
Institute Of Industrial Science University Of Tokyo
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MINAMISAWA Akiko
Japan Women's University
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Minamisawa Akiko
Japan Women's University
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Jyounouti Etsuko
Department Of Physics Meiji University
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Tanaka Hajime
Institute Of Industrail Science University Of Tokyo
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Oki Yutaka
Institute Of Industrial Science University Of Tokyo
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Takagi K
Hitachi Ltd. Tokyo Jpn
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Choi P‐k
Meiji Univ. Kawasaki
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Tanaka Hideaki
Institute for Protein Research,Osaka University
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TOKUI Takaaki
Institute of Industrial Science, University of Tokyo
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Bah Jong-rim
Institute Of Industrial Science University Of Tokyo
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Bae Jong-rim
Institute Of Industrial Science University Of Tokyo
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Ohno Masahiro
Chiba Institute of Technology
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Sakai Kiyomi
Department Of Applied Physics Faculty Of Engineering Osaka University
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KANDA Osamu
Institute of Industrial Science, University of Tokyo
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Sakai K
Precision Technology Development Center Sharp Corporation
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Kanda Osamu
Institute Of Industrial Science University Of Tokyo
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Ohno M
Chiba Institute Of Technology
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HOSODA Maiko
Frontier Research & Development Center, Tokyo Denki University
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OGAWA Hideo
Chemical Laboratory, Dept. of Natural Sciences, College of Science & Engineering
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Nomura Hiroyasu
Chemical Laboratory Dept. Of Natural Sciences College Of Science & Engineering
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CHOI Pak-Kon
Department of Physics, School of Science and Technology, Meiji University
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Tokui Takaaki
Institute Of Industrial Science University Of Tokyo:(present Address)asahi Kasei Microsystems Co. Lt
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OHNO Masahiro
Olympus Optical Company, Ltd.
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Minamisawa A
Japan Women's Univ. Tokyo Jpn
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Ozawa A
Japan Women's Univ. Tokyo Jpn
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Ozawa Atsumi
Japan Women's University
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KIKUCHI Hiroki
Institute of Industrial Science, University of Tokyo
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Hattori Koiciro
Institute of Industrial Science, University of Tokyo
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SAKAI Harue
Institute of Industrial Science, University of Tokyo
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Kikuchi Hiroki
Institute Of Industrial Science University Of Tokyo
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Hattori Koiciro
Institute Of Industrial Science University Of Tokyo
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Sakai Harue
Institute Of Industrial Science University Of Tokyo
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JYOUNOUTI Etsuko
Department of Physics, Meiji University
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Bae Jon-rim
Institute Of Industrial Science University Of Tokyo
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Tanaka Hideaki
Institute Of Industrial Science University Of Tokyo
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Tanaka Hideaki
Institute For Protein Research Osaka University
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NAITO Yasushi
Institute of Industrial Science, University of Tokyo
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Naito Yasushi
Institute Of Industrial Science University Of Tokyo
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Ogawa Hideo
Chemical Laboratory, Dept. of Natural Sciences, College of Science & Engineering, Tokyo Denki University, Isizaka, Hatoyama, Saitama 350-0394, Japan
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Hosoda Maiko
Frontier Research & Development Center, Tokyo Denki University, Isizaka, Hatoyama, Saitama 350-0394, Japan
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Hosoda Maiko
Institute of Industrial Science, University of Tokyo, 4-6-1 Komaba, Meguro-ku, Tokyo 153-8505, Japan
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Takagi Kenshiro
Institute of Industrial Science, University of Tokyo, 4-6-1 Komaba, Meguro-ku, Tokyo 153-8505, Japan
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Takagi Kenshiro
Institute of Industrial Science, University of Tokyo, 4-6-1, Komaba, Meguro-ku, Tokyo 153-8505, Japan
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Sakamoto Naoto
Institute of Industrial Science, University of Tokyo, 4-6-1 Komaba, Meguro-ku, Tokyo 153-8505, Japan
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Sakai Keiji
Institute of Industrial Science, University of Tokyo, 4-6-1, Komaba, Meguro-ku, Tokyo 153-8505, Japan
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Nomura Hiroyasu
Chemical Laboratory, Dept. of Natural Sciences, College of Science & Engineering, Tokyo Denki University, Isizaka, Hatoyama, Saitama 350-0394, Japan
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Jyounouti Etsuko
Department of Physics, Meiji University, Tama-ku, Kawasaki 214-8571, Japan
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Takagi Kenshiro
Institute of Industrial Science, The University of Tokyo, Komaba, Meguro-ku 153-8505, Japan
著作論文
- Ripplon Light Scattering Technique Combined with Scanning Angle Reflectometry for the Observation of Inhomogeneity at Liquid Surface
- Frequency Domain Measurement for Relaxation Study on Optical Kerr Effect
- Thermal Expansion and Surface Elasticity in Langmuir Films of Myristic Acid
- Estimation of Nonlinear Piezoelectricity of 0.5Pb(Ni_Nb_)O_3-0.35PbTiO_3-0.l5PbZrO_3 and 0.64Pb(Ni_Nb_)O_3-0.36PbTiO_3Ceramics
- Observation of Acoustic Diffusion Wave(Structure and Mechanical and Thermal Properties of Condensed Matter)
- Ultrasonic relaxation study in methylcyclohexane and methyl acetate by plano-concave resonator method
- Ultrasonic Spectroscopy in Liquid Bromoform : Physical Acoustics
- Dependence of Transport Mean Free Path on Size of Scatterer
- Measurement of Coherent Backscattering Phenomena in Emulsion
- High-Frequency Measurement of Surface Elasticity of a Soluble Monolayer at Water Surface Using Ripplon Light Scattering Method
- Measurement of Thermal Ripplon on Liquid Surface by Light Scattering Technique : Physical Acoustics
- Dispersion of Thermal Ripplon on Free Surfaces of Pure Liquids Measured up to 6 MHz
- Ultrasonic Spectroscopy in Liquids by High-Resolution Bragg Reflection Technique : Physical Acoustics I
- Ultrasonic Studies of Intermolecular Vibrational-Vibrational Energy Transfer in Liquid Mixtures
- Viscoelastic and Structural Relaxations in Liquid Cyclohexanol
- Ultrasonic and Hypersonic Measurements in Liquid Cyclohexane and Methylcyclohexane
- Molecular Relaxation Study by Ultrasonic Spectroscopy : Physical Acoustics
- Ultrasonic vibrational relaxation in liquid diiodomethane
- Properties of Piano-Concave Ultrasonic Resonator and Application to Velocity Dispersion Measurement
- Observation of Thermal Phonon Resonance in Cylindrical Microcavities
- Brillouin Scattering Measurement of Optothermally Excited Phonon
- Light Beating Spectroscopy of Brillouin Scattering in Solid Polymer
- Nonlinear Piezoelectricity of PZT Ceramics and Acoustic Phase Conjugate Waves
- Doppler Shift of Ripplon Spectrum Observed under Surface Flow : Instrumentation, measurement, and Fabrication Technology
- Optical Beating Brillouin Spectroscopy : Physical Acoustics
- An improved system of HRB(high-resolution Bragg reflection)method for ultrasonic measurements up to 2.1GHz
- Observation of phase advance due to diffraction of ultrasonic pulse
- Dynamic Properties of Soluble Monolayer of Sodium Dodecyl Sulfate (SDS) on Aqueous Solution
- High-Resolution Bragg Reflection Method for Measuring UHF Ultrasonic Velocity in Liquids
- Measurement of UHF Ultrasonic Attenuation in Liquids by Optical Heterodyne Method
- Surface Tension Wave on Gelatin Gel
- Brillouin Scattering Experiment under Strong Background Light
- Ultrasonic Properties in Woods : Acoustical Measurements and Instrumentation
- Light Scattering Study of UHF Ultrasonic Properties in Fused Quartz : Acoustic Measurements
- Relaxation of Two-Dimensional Visco-Elasticity in a Long Chain Fatty Acid Monolayer Expanded at the Air/Water Interface
- Simple Resonant-Cell for Photoacoustic Study of Liquids
- Visualization of Shear Waves Radiated from Pseudocapillary Mode on Agarose Gel by Stroboscopic Photoelaseocity Technique
- Light Scattering Study of Ultrasonic Relaxation in Liquid Furan
- Gelation and Ultrasonic Hysteresis in Egg White : Physical Acoustics
- High-Q Ultrasonic Resonator for Absorption Measurements in Liquids : Physical Acoustics
- Ultrasonic Velocity and Absorption in Water up to 1.5 GHz
- Rapid and Precise Measurement System for Ultrasonic Velocity by Pulse Correlation Method Designed for Chemical Analysis
- Measurements of High Frequency Ultrasonic Velocity and Absorption in Liquid Thiophene with High-Resolution Bragg Reflection Method
- Observation of Molecular Orientation Induced by Capillary Wave
- Applicability of the Mean-Field Theory to the Optical Kerr Effect in the Isotropic Phase of Liquid Crystal Induced by a Continuous Wave Laser
- Visualization of Shear Waves Radiated from Pseudocapillary Mode on Agarose Gel by Stroboscopic Photoelasticity Technique