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大阪大学 オープンコースウェア

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シラバス

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講義名 Evolutional Science and Engineering of Correlated Electron Matter
目的

New types of superconducting and magnetic phenomena emerge in correlated electron matters. Strong electron-correlation effect gives rich phenomena and functions in condensed matters, being key-concept for heavy-electron materials, itinerant electron magnets, high-transition-temperature cupper-oxide superconductors, novel transition- metal oxides, and organic conductors, magnets and superconductors.

We begin with a perspective view on these materials. An overview on experimental techniques, that are powerful tools for investigating these phenomena, are given, focusing on Nuclear Magnetic Resonance (NMR) and Neutron Scattering (NS) experiments. On the basis of microscopic information obtained by these techniques, we address intriguing properties in correlated electron matters and their physical backgrounds.

The important functions and central physics of superconductivity are reviewed on conventional materials so as to be able to capture its basic concept. Strongly correlated superconductivity is also remarked for understanding of a new concept for superconductivity mediated by magnetic interactions. Potential application of correlated electron matters to technology is presented focusing on "Spintronics" or "Strongly Correlated Electronics."

内容
  1. Introduction to Correlated Electron Matters
  2. Perspectives of Frontier in Magnetism and Superconductivity
  3. Introduction to Magnetism
  4. Introduction to Superconductivity
  5. How to Probe Rich and Emergent Properties in Correlated Electron Matters --Nuclear Magnetic Resonance(NMR) and Neutron Scattering Methods--
  6. Functions of Magnetism and Superconductivity
  7. Frontier of Superconductivity
    *1 heavy-electron systems
    *2 high-transition-temperature copper oxides
    *3 novel transition-metal oxides
    *4 organic superconductors
  8. Evolutional Science and Engineering of Superconductivity
  9. Novel functions near the multi-critical phases of matters
  10. Application of Correlated Electron Matters to Technology
    *1 "Spintronics"
  11. Towards "Strongly Correlated Electronics"
教科書 Not Specified
参考書 Y.Kuramoto and Y. Kitaoka;,"Dynamics of Heavy Electrons" Oxford
A.Abragam"Nuclear Magnetism" Oxford
評価 Reports on several subjects in lecture
コメント  
Copyright 2010, 寄稿する作者による. 引用/出所元. 北岡良雄. (2007, June 12). シラバス. Retrieved May 30, 2017, from Osaka University Open Course Ware Web site: http://ocw.osaka-u.ac.jp/engineering-science-jp/evolutional-science-and-engineering-of-correlated-electron-matter-jp/syllabus-jp. この作品は次のライセンスによっています: Creative Commons License Creative Commons License