Aono Shigeyuki | Department Of Chemistry College Of Arts And Sciences Chiba University
スポンサーリンク
概要
関連著者
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Aono Shigeyuki
Department Of Chemistry College Of Arts And Sciences Chiba University
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Nishikawa Kiyoshi
Department Of Chemistry Faculty Of Science Kanazawa University
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Kimura Minoru
Department Of Dna Biology School Of Medicine Tokai University
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Ohmae Takayuki
Department of Chemistry, Faculty of Science, Kanazawa University
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Deguchi Kisaburo
Department of Chemistry, Faculty of Science, Kanazawa University
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Nishikawa Kiyoshi
Department Of Electrical Engineering Tokyo Metropolitan University
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Kawabe Hiroyuki
Department of Chemistry, Faculty of Science, Kanazawa University
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Aono Shigeyuki
Department of Chemistry, Faculty of Science, Kanazawa University
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Oohashi Kunio
Department Of Chemistry College Of Arts And Sciences Chiba University
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Yoshida Junichi
Department Of Cardiovascular Medicine Osaka University Graduate School Of Medicine
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AONO Shigeyuki
Department of Chemistry, College of Arts and Sciences Chiba University
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Aono S
Kanazawa Univ. Kanazawa
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Aono Shigeyuki
Department Of Chemistry Faculty Of Science Kanazawa University
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Aono Shigeyuki
Department Of Chemistry Faculty Of Science Kanazawa Universlty
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OHMAE Takayuki
Faculty of Home Economics, Yamaguchi Prefectural University
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Nakajima Akihiko
Department Of Aeronautical Engineering Kyoto University Kyoto
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Ohmae Takayuki
Faculty Of Home Economics Yamaguchi Prefectural University
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Yoshida Junichi
Department Of Chemistry Faculty Of Science Kanazawa University : Faculty Of Science Kyushu Universit
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AONO Shigeyuki
Department of Chemistry, Faculty of Science Kanazawa University
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NISHIKAWA Kiyoshi
Department of Chemistry, Faculty of Science Kanazawa University
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Yamamoto Masaaki
Department of Chemistry, Faculty of Science, Kanazawa University
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Nishikawa Kiyoshi
Department of Chemistry, Faculty of Science, Kanazawa University
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Nishikawa Kiyoshi
Department of Chemistry, Faculty of Science, University of Kanazawa
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Kano Toshiharu
Department of Chemistry, Faculty of Science, University of Kanazawa
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Nakajima Akihiko
Department of Chemistry, Faculty of Science, Kanazawa University
著作論文
- Electron Spin Resonance of the Aromatic-Alkali Metal System. II : Temperature Dependence of the Na Hyperfine Splittings in the Naphthalene-Na Ion Pair
- Superconductivity : An Off-Diagonal Long Range Order
- Effective Electron-Electron Interaction in Organic Chain Molecules : A Comment on Little's Idea of Organic Superconductor
- Theory of Thermo- and Photo-Chemical Reactivity and Its Applications
- Electronic Structures of the Huckel Ring and the Mobius Ring
- Molecular Orbital Theory : Spinor Representation
- Molecular Orbital Theory : Spinor Representation(Atomic and Molecular Physic)
- Magnetic Resonance Either in Normal or Superconducting Species. Spin-Lattice Relaxation Time
- Superconductivity as Symmetry Breaking. Classical Treatment
- General Theory of Decay Processes in Molecules : A Green Function Treatment
- Use of propagators in the Hueckel model. VII. Thermochemical and photochemical rearrangement in cycloheptatriene, tropone, and related compounds.
- Use of propagators in the hueckel model. II. Propagators in terms of trigonometrical functions.
- Use of propagators in the Hueckel model. III. Stability and reactivity.
- Use of propagators in the Hueckel model. IV. Chemical reactivity in radiation field.
- Use of propagators in the Hueckel model. VI. Magnetic perturbation and ring current.
- Possibility of superconducting and other phases in organic high polymers of polyacene carbon skeletons. II. Screened electron-electron interaction. Method of renormalization group.
- Theory of molecular deformation due to the vibronic interaction between two closely-spaced electronic levels. II. Green's function treatment.
- Possibility of superconducting and other phases in organic high polymers of polyacene carbon skeletons. I. Screened electron-electron interaction-random phase approximation.
- Field theoretical treatment of the proton hfs in aromatic ion radicals.
- Theory of molecular deformation due to the vibronic interaction between two closely-spaced electronic levels. I.
- Use of propagators in the Hueckel model. V. Polarizabilities.
- Use of propagators in the Hueckel model. VIII. Intermolecular interaction.