Kondo Ryusuke | Department Of Art And Science The University Of Tokyo
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概要
関連著者
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Kondo Ryusuke
Department Of Art And Science The University Of Tokyo
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Kagoshima Seiichi
Department Of Art And Science The University Of Tokyo
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KONDO Ryusuke
Department of Basic Science, University of Tokyo
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KAGOSHIMA Seiichi
Department of Basic Science, University of Tokyo
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Sakaguchi K
Institute For Protein Research Osaka University
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Kagoshima S
Department Of Basic Science University Of Tokyo
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Kondo R
Department Of Basic Science University Of Tokyo
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IWASA Yoshihiro
Japan Advanced Institute of Science and Technology
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HIGA Momoka
Department of Basic Science, University of Tokyo
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Higa Momoka
Department Of Basic Science University Of Tokyo
著作論文
- Hump Like Resistance Anomaly in Organic Conductor β"-(BEDT-TTF)_2CsCd(SCN)_4(Condensed matter: electronic structure and electrical, magnetic, and optical properties)
- Superconductivity and Metal-Insulator Transition in Twin-Columnar Organic Superconductor, (BETS)_2(X_2TCNQ)[X=C1, Br]
- Donor - Acceptor Type Superconductor, (BETS)_2 (Cl_2 TCNQ)
- Electrical and Structural Properties of θ-type BEDT-TTF Organic Conductors under Uniaxial Strain(Condensed Matter: Electronic Structure, Electrical, Magnetic and Optical Properties)
- Structural Studies of Pressure-Induced Organic Superconductor β"-(DODHT)_2PF_6 Having Charge-Ordering Phase at Ambient Pressure(Condensed matter: electronic structure and electrical, magnetic, and optical properties)
- Uniaxial Strain Effect on the θ-Phase Organic Conductor with a Large Dihedral Angle, θ-(TMET-TTP)_4PF_6 (Condensed Matter: Electronic Structure, Electrical, Magnetic and Optical Properties)
- A Possible Internal Deformation of the Charge Ordering and Its Meta-stability in the Organic Conductor θ-(BEDT-TTF)_2CsZn(SCN)_4(Condensed matter: electronic structure and electrical, magnetic, and optical properties)
- High-Pressure Research in Organic Conductors
- Development of Uniaxial Elongation Method and Its Application to Low Dimensional Conductors(Condensed matter : electronic structure and electrical, magnetic, and optical properties)
- Effects of Hydrostatic Pressure and Uniaxial Strain on Spin-Peierls Transition in an Organic Radical Magnet, BBDTA$\cdot$InCl4