| Kishimoto, Yutaka (60.4%) / Professor [Detail] |
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| Academic Degree: |
工学博士 |
| Field of Study: |
Solid State Physics |
| Lecture: |
Presentation Method (D) (Graduate School), Graduation Work (Bachelor Course), Mechanics (Common Curriculum), Electricity and Magnetism (Common Curriculum), Engineering of Correlated Electron Matter (Graduate School), Seminar on Natural Sciences (Bachelor Course), Technical English Fundamentals 2 (Bachelor Course), Fundamentals of Wave Motion (Bachelor Course), Introductory Laboratory in Physics for Engineering Sciences (Bachelor Course), Laboratory for Physical Science 1 (Bachelor Course), Laboratory for Physical Science 2 (Bachelor Course), Interdisciplinary Seminar in Science and Technology (Graduate School), Statistical Mechanics for Engineering Sciences (Bachelor Course), Graduate Research on Natural Sciences (Graduate School), Graduate Seminar on Natural Sciences (Graduate School), Fundamental Mechanics (Bachelor Course), Superconductivity and Superconducting Materials (Graduate School), Reading Scientific Papers (Bachelor Course) |
| Subject of Study: |
強結合超伝導体のエネルギーギャップの異方性の核磁気共鳴法による研究, 銅硫化物スピネル化合物の電子状態の核磁気共鳴法による研究, 非晶質高濃度近藤物質の基底状態の核磁気共鳴法による研究 (強結合超伝導体, A15化合物, C15化合物, 重い電子系物質, 超伝導エネルギーギャップの異方性, 銅硫化物スピネル, 金属·絶縁体転移, 電荷密度波, 非晶質, 核磁気共鳴(NMR)法) |
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| Kawasaki, Yu (34.8%) / Associate Professor [Detail] |
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| Academic Degree: |
Doctor of Science |
| Field of Study: |
solid state physics |
| Lecture: |
Presentation Method (D) (Graduate School), Graduation Work (Bachelor Course), Mechanics (Common Curriculum), Engineering of Correlated Electron Matter (Graduate School), Engineering of Correlated Electron Matter (Graduate School), Seminar on Natural Sciences (Bachelor Course), Technical English Fundamentals 1 (Bachelor Course), Technical English Fundamentals 2 (Bachelor Course), Physics of Condensed Matter 2 (Bachelor Course), Introductory Laboratory in Physics for Engineering Sciences (Bachelor Course), Laboratory for Physical Science 1 (Bachelor Course), Laboratory for Physical Science 2 (Bachelor Course), Interdisciplinary Seminar in Science and Technology (Graduate School), Statistical Mechanics for Engineering Sciences (Bachelor Course), Graduate Research on Natural Sciences (Graduate School), Graduate Seminar on Natural Sciences (Graduate School), Quantum Mechanics for Engineering Sciences (Bachelor Course), Reading Scientific Papers (Bachelor Course) |
| Subject of Study: |
magnetism and superconductivity in strongly correlated electron system (heavy-fermion compound, anisotropic superconductivity, non-Fermi liquid, nuclear magnetic resonance) |
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| (Kanashiro, Tatsuo) (27.8%) / Professor Emeritus [Detail] |
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| Academic Degree: |
Doctor of Science |
| Field of Study: |
Solid State Physics |
| Subject of Study: |
NMR Study on Lithium Ion Coductors, Ion Dynamics of Noble Metal Conductors (Ionic Conductors, Batteries, nuclear magnetic resonance) |
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| (Koyama, Kuniyuki) (7.5%) / Professor Emeritus [Detail] |
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| Academic Degree: |
Doctor of Engineering |
| Field of Study: |
Solid State Physics |
| Subject of Study: |
Mechanism of New Type Superconductivity, Physical Property of Strongly Correlated Quantum Spin System, Chiral-Glass Order in Superconducting Ceramics (Strongly Correlated Electron System, Superconducting Ceramics, Chiral Glass Order) |
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| Nakamura, Koichi (5.3%) / Professor [Detail] |
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| Academic Degree: |
Doctor of Science |
| Field of Study: |
Solid State Physics |
| Lecture: |
SIH(Strike while the Iron is Hot) Training (Common Curriculum), オリエンテーション1年 (Bachelor Course), Presentation Method (D) (Graduate School), Elements of Mechanics 1 (Bachelor Course), Elements of Mechanics 2 (Bachelor Course), Graduation Work (Bachelor Course), Solid State Ionics (Graduate School), Mechanics (Common Curriculum), Electricity and Magnetism (Common Curriculum), Seminar on Natural Sciences (Bachelor Course), Ethics for Engineers and Scientists (Common Curriculum), Technical English Fundamentals 2 (Bachelor Course), 教員養成講座(前期) (Bachelor Course), 教員養成講座(後期) (Bachelor Course), Physics of Condensed Matter 1 (Bachelor Course), Introductory Laboratory in Physics for Engineering Sciences (Bachelor Course), Laboratory for Physical Science 1 (Bachelor Course), Laboratory for Physical Science 2 (Bachelor Course), Introduction to Science and Technology (Common Curriculum), Interdisciplinary Seminar in Science and Technology (Graduate School), Methodology of Teaching Science II (Bachelor Course), Methodology of Teaching Science IV (Bachelor Course), Statistical Mechanics for Engineering Sciences (Bachelor Course), Graduate Research on Natural Sciences (Graduate School), Graduate Seminar on Natural Sciences (Graduate School), Quantum Mechanics for Engineering Sciences (Bachelor Course), Reading Scientific Papers (Bachelor Course), Radio Frequency Solid State Physics (Graduate School) |
| Subject of Study: |
Li+ ion difusion in electerode materials for Li ion rechargeable batteries, Li+ ion diffusion in Li alloys, Na+ ion diffusion in electrode materials for Na ion rechargeable batteries, Local changes in crystal structure and ion dynamics by mechanical milling, Development of non-linear resonant ultrasonic method (Cathode and anode materials for Li ion rechargeable batteries, superionic conductor, Li transition metal oxide, ionic diffusion, Li+ ion diffusion, Li+ ion conductor, Na+ ion diffusion, Na+ ion conductor, nuclear magnetic resonance, Mechanical milling, Ultrasonic method, Electrical conductivity measurement) |
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| Saito, Takahito (0.5%) / Professor [Detail] |
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| Academic Degree: |
Doctor of Science |
| Field of Study: |
Solid State Physics |
| Lecture: |
Handicrafts and Social Communications (Introduction to Science) (Common Curriculum), Active learning for environmental issues in Tokushima (Common Curriculum), Graduation Work (Bachelor Course), Global Environment and Sustainable Society (Common Curriculum), General Physics (Common Curriculum), General Physics 1 (Common Curriculum), General Physics 2 (Common Curriculum), Laboratory Physics (Common Curriculum), Introduction to military research for world peace (Common Curriculum), Seminar on Natural Sciences (Bachelor Course), Technical English Fundamentals 2 (Bachelor Course), Advanced Lecutre of Physical Property Measurement (Graduate School), Physics (Common Curriculum), Laboratory for Physical Science 1 (Bachelor Course), Laboratory for Physical Science 2 (Bachelor Course), Introduction to Physical Science (Bachelor Course), Introductory Laboratory for Physical Science (Bachelor Course), Interdisciplinary Seminar in Science and Technology (Graduate School), Active learning for globalization by cross-cultural communications (Common Curriculum), What should we learn in the exchange program with foreign countries (Common Curriculum), Graduate Research on Natural Sciences (Graduate School), Graduate Seminar on Natural Sciences (Graduate School), Reading Scientific Papers (Bachelor Course) |
| Subject of Study: |
NMR Study in Superconductor (superconductor, nuclear magnetic resonance) |
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| Magishi, Ko-ichi (0.5%) / Professor [Detail] |
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| Academic Degree: |
Doctor of Science |
| Field of Study: |
Solid State Physics |
| Lecture: |
STEM Practice (Bachelor Course), Graduation Work (Bachelor Course), Mechanics (Common Curriculum), Laboratory Physics (Common Curriculum), Seminar on Natural Sciences (Bachelor Course), Technical English Fundamentals 2 (Bachelor Course), Thermodynamics and Statistics Mechanics 1 (Bachelor Course), Thermodynamics and Statistics Mechanics 2 (Bachelor Course), Laboratory for Physical Science 1 (Bachelor Course), Laboratory for Physical Science 2 (Bachelor Course), Introductory Laboratory for Physical Science (Bachelor Course), Interdisciplinary Seminar in Science and Technology (Graduate School), Seminar on Natural Sciences (Bachelor Course), Graduate Research on Natural Sciences (Graduate School), Graduate Seminar on Natural Sciences (Graduate School), Quantum Condensed Matter Physics (Graduate School), Quantum Physics of Condensed Matter (Bachelor Course), Reading Scientific Papers (Bachelor Course) |
| Subject of Study: |
NMR study of strongly correlated electron systems (high temperature superconductor, heavy-fermion system, quantum spin system, metal-insulator transition, nuclear magnetic resonance) |
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