Ando Tsuneya | Institute For Solic State Physics University Of Tokyo
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概要
関連著者
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Ando Tsuneya
Institute For Solic State Physics University Of Tokyo
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ANDO Tsuneya
Institute for Solid State Physics, University of Tokyo
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Ando Tsuneya
Institute For Solid State Physics University Of Tokyo
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Ando Tsuneya
Institute For Solid State Physics The University Of Tokyo
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安藤 恒也
東京大学物性研究所
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Ajiki Hiroshi
Institute For Solid State Physics University Of Tokyo
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NAKANISHI Takeshi
The Institute of Physical and Chemical Research (RIKEN)
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Igami Masatsura
Institute Of Materials Science University Of Tsukuba
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安藤 恒也
東工大理
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安藤 恒也
東工大院理工
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Ando Tsuneya
Institute For Solid State Physics University Of Tokyo:(present Address)department Of Physics Tokyo I
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Nakanishi T
Delft Univ. Technol. Lorentzweg Delft Nld
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Nakanishi T
Delft Univ. Technol. Delft Nld
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NAKANISHI Takeshi
Institute for Solid State Physics,University of Tokyo
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MATSUMURA Hajime
Institute for Solid State Physics, University of Tokyo
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IGAMI Masatsura
Institute of Materials Science,University of Tsukuba
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Nakanishi Takeshi
Institute Of Physics And Chamical Research (riken)
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Nakanishi T
Nihon Univ. Tokyo
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Igami M
Univ. Tsukuba Ibaraki
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Nakanishi T
Graduate School Of Science Tokyo Metropolitan University
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Uryu Seiji
Institute For Solid State Physics University Of Tokyo
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Nakanishi Takeshi
Institute For Solid State Physics University Of Tokyo
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Matsumura Hajime
Institute For Solid State Physics University Of Tokyo
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Suzuura Hidekatsu
Institute For Solid State Physics University Of Tokyo
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Yaguchi Tatsuya
Institute For Solid State Physics University Of Tokyo
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Nakanishi Takeshi
Department Of Applied And Bioapplied Chemistry Graduate School Of Engineering Osaka City University
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ISHIZAKA Satoshi
NEC Fundamental Research Laboratories
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Ando Tsuneya
Institute Of Applied Physics University Of Tsukuba
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Mori Shojiro
Department Of Physics University Of Tokyo
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Seri Takuji
Institute For Solid State Physics University Of Tokyo
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Suzuura Hidekatsu
Department Of Physics Tokyo Institute Of Technology
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安藤 恒也
第2段審査委員:東大物性研
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YAGUCHI Tatsuya
Institute for Solid State Physics, University of Tokyo
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NAKANISHI Takeshi
Department of Applied Physics and DIMES, Delft University of Technology Lorentzweg 1
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YOSHIOKA Tomoaki
Institute for Solid State Physics, University of Tokyo
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二瓶 史行
NEC基礎研
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NIHEY Fumiyuki
NEC Fundamental and Environmental Research Laboratories
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MIURA Noboru
Institute for Solid State Physics,University of Tokyo
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Aoki H
Fishries Res. Inst. Mie Mie Jpn
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Zheng Yisong
Institute For Solid State Physics University Of Tokyo
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Ando T
Univ. Tokyo Tokyo Jpn
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二瓶 史行
Nec基礎・環境研究所
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Nihey F
Nec Fundamental And Environmental Res. Lab. Tsukuba Jpn
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Nihey Fumiyuki
Nec Fundamental Research Laboratories
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Miura Noboru
Instilute For Solid State Physics University Of Tokyo
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Ando T
Kyoto Univ. Kyoto
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Ando T
Institute For Solid State Physics University Of Tokyo
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URYU Seiji
Institute for Solid State Physics, University of Tokyo
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AOKI Hideo
Institute for Materials Science,University of Tsukuba
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MURAYAMA Yoshimasa
Central Research Laboratory,Hitachi Ltd.
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Tsuchiya Takuma
Japan Advanced Institute Of Science And Technology (jaist)
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NAKAMURA Kazuo
NEC Fundamental Research Laboratories
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Yoshioka Tomoaki
Institute For Solid State Physics University Of Tokyo
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Saito Riichiro
Department Of Electronic Engineering University Of Electro-communications
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Lee Joo-sin
Institute For Solid State Physics University Of Tokyo
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Viet Ai
Institute For Solid State Physics University Of Tokyo
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Shon Nguyen
Institute For Solid State Physics University Of Tokyo
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Matsumura H
Department Of Molecular Genetics Institute Of Molecular And Cellular Biology For Pharmaceutical Scie
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Matsumura H
Institute For Solid State Physics University Of Tokyo
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二瓶 史行
大阪大学大学院理学研究科物理学専攻
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Ajiki H
Univ. Tokyo Tokyo
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Ajiki Hiroshi
Institute For Solid State Physics University Of Tokyo:department Of Material Physics Faculty Of Engi
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二瓶 史行
技術研究組合 単層cnt融合新材料研究開発機構
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Nihey Fumiyuki
Fundamental Research Laboratories Nec Corporation
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Tsuneya ANDO
Institute for Solid State Physics, University of Tokyo
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Saito Riichiro
Department Of Electronics Engineering Universirt Of Electro-communications
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Asano Kenichi
Institute For Solid State Physics University Of Tokyo
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Uryu S
Institute For Solid State Physics University Of Tokyo
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Wakahara S
Semiconductor Leading Edge Technol. Inc. Tsnkuba‐shi Jpn
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Tsuneya Ando
Institute For Solid State Physics University Of Tokyo
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Katayama Shin'ichi
Japan Advanced Institute Of Science And Technology (jaist)
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Katayama Shin'ichi
General Education Department Niigata University
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WAKAHARA Shoji
Institute for Solic State Physics,University of Tokyo
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Aoki Hideo
Institute For Materials Science University Of Tsukuba
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Suzuki Tatsuo
Institute For Solid State Physics University Of Tokyo
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Tsuchiya Takashi
Department Of Applied Physics School Of Science And Engineering Waseda University
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Murayama Y
Hitachi Ltd. Saitama
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Murayama Yoshimasa
Central Research Laboratory
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Murayama Yoshimasa
Advanced Research Lavoratory Hitachi Ltd.
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MORI Shojiro
Department of Physics,University of Tokyo
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Nakanishi Takeshi
Institute Of Physical And Chemical Research (riken):(present)department Of Applied Physics And Dimes Delft University Of Technology
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Nakanishi Takeshi
The Institute Of Physics And Chemical Research (riken)
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Matsumura H
Department Of Molecular Genetics Institute Of Molecular And Cellular Biology For Pharmaceutical Sciences Kyoto Pharmaceutical University
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TUSCHIYA Takuma
Japan Advanced Institute of Science and Technology (JAIST)
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Sone Jun'ichi
Nec Fundamental Research Laboratories
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SERI Takuji
Institute for Solid State Physics,The University of Tokyo
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Seri T
Institute For Solid State Physics The University Of Tokyo
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Viet Nguyen
Institute for Solid State Physics, University of Tokyo
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ANDO Tsuneya
Institute for Solid State Physics,University of Tokyo
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TSUCHIYA Takashi
Department of Applied Physics, Waseda University
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Yaguchi Tatsuya
Institute for Solid State Physics, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba 277-8581
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Ando Tsuneya
Institute of Applied Physics,University of Tsukuba
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Katayama Shin′ichi
General Education Department,Niigata University
著作論文
- Electronic States of BCN Alloy Nanotubes in a Simple Tight-Binding Model (Condensed Matter: Electronic Structure, Electrical, Magnetic and Optical Properties)
- Conductance of Crossed Carbon Nanotubes : Condensed Matter: Electronic Properties, etc.
- Electronic States in Capped Carbon Nanotubes : Condensed Matter: Electronic Properties, etc.
- Scattering-Matric Formalism for Antidot Lattices
- Dynamical Conductivity and Zero-Mode Anomaly in Honeycomb Lattices(Condensed Matter : Electronic Structure, Electrical, Magnetic and Optical Properties)
- Finite-Size Scaling Study of Localization in Landau Levels
- Contact between Carbon Nanotube and Metallic Electrode : Condensed Matter: Electronic Properties, etc.
- Landau-Level Broadening in GaAs/AlGaAs Heterojunctions
- Conductance of Carbon Nanotubes with a Stone-Wales Defect
- Interband Magneto-Optics of n-Type Modulation-Doped GaAs-AlGaAs Multi-Quantum Wells in High Magnetic Fields up to 40 T
- Numerical Studies on Quantum Transport in Antidot Arrays in Magnetic Fields
- Quantum Transport in Two-Dimensional Graphite System
- Conductance of Carbon Nanotubes with a Vacancy
- Effective-Mass Theory of Carbon Nanotubes with Vacancy
- Numerical Study of Transport in Carbon Nanotubes with Lattice Vacancy
- Effective-Mass Theory of Carbon Nanotube Junctions
- Effective Mass Theory of Carbon Nanotubes with Vacancies in Magnetic Fields : Condensed Matter: Electronic Properties, etc.
- Berry's Phase and Absence of Back Scattering in Carbon Nanotubes
- Electronic States of Carbon Nanotubes
- Lattice Instability in Metallic Carbon Nanotubes
- 27. Theory of Quantized Hall Effect and Localization(Theories,IV. Quantized Hall Effects)
- Chaos and Quantum Transport in Antidot Lattices
- Effects of Electron-Electron Interactions on Spin-Split Cyclotron Resonance
- Magnetic Oscillation of Luminescence Energy in Asymmetric Quantum Wells
- Theory of Hot-Electron Transport in Strong Magnetic Fields
- Magnetic-Field Dependence of Localization in Antidot Lattices
- Lattice Distortion of Metallic Carbon Nanotubes Induced by Magnetic Fields
- Electronic Properties of a Semiconductor Superlattice. : I. Self-Consistent Calculation of Subband Structure and Optical Spectra
- Energy Bands of Carbon Nanotubes in Magnetic Fields
- Electronic Properties of a Semiconductor Superlattice : II. Low Temperature Mobility Perpendicular to the Superlattice
- Electronic Properties of a Semiconductor Superlattice. III. Energy Levels and Transport in Magnetic Fields
- Subband Structure of Quantum Wires in Magnetic Fields
- Electron Localization in a Two-Dimensional System in Strong Magnetic Fields.I.Case of Short-Range Scatterers
- Self-Consistent Results for a GaAs/Al_xGa_As Heterojunciton.II.Low Temperature Mobility
- Electron Localization in a Two-Dimensional System in Strong Magnetic Fields.III.Impurity-Concentration Dependence and Level-Mixing Effects
- Minigap and Transport in a Two-Dimensional Electron System
- Hole Subband at GaAs/AlGaAs Heterojunctions and Quantum Wells
- Magnetic Oscillation of Luminescence energy in Single Heterostructures
- Lattice Distortion with Spatial Variation of Carbon Nanotubes in Magnetic Fields
- Localization in Strong Magnetic Fields and Quantum Hall Effect
- Light Scattering by Electronic Excitations in n-Type GaAs-Al_xGa_As Superlattices
- Boltzmann Conductivity of a Carbon Nanotube in Magnetic Fields
- Quantum Transport in a Carbon Nanotube in Magnetic Fields
- Magnetic Properties of Carbon Nanotubes
- Numerical Syudy of Impurity Scattering in Carbon Nanotubes
- Line Width of Inter-Subband Absorption in Inversion Layers:Scattering from Charged Ions
- Subbands in Space-Charge Layers on Narrow Gap Semiconductors:Validity of Semiclassical Approximation
- Effect of Level Broadening on the Polarizability in a Two-Dimensional System
- Electron Localization in a Two-Dimensional System in Strong Magnetic Fields.II.Long-Range Scatterers and Response Functions
- Impurity Scattering in Carbon Nanotubes-Absence of Back Scattering
- Conductance of Carbon Nanotube Junctions in Magnetic Fields
- Topological Effects in Capped Carbon Nanotubes
- Conductance of Carbon Nanotube Junctions in Magnetic Fields