40 - Evolutional Science and Engineering of Correlated Electron Matter（シラバスのみ）, Autumn Term
Evolutional Science and Engineering of Correlated Electron Matter
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.