TOKURA Yoshinori
| Name | 十倉 好紀 / TOKURA Yoshinori |
|---|---|
| Degree | PhD |
| Occupation | Distinguished University Professor |
| Affiliation | TOKYO COLLEGE |
| Affiliation site URL | https://www.tc.u-tokyo.ac.jp/en/index.html |
| Specialty | Solid State Physics |
| Research theme(s) | Strongly correlated electron systems |
| Keywords related to research themes | Mott transition,multiferroics,colossal magnetoresistance, high-temperature superconductors,spin-charge-orbital order, photo-induced phase transition,transition-metal oxides,topological transport phenomena,organic ferroelectrics |
| Research achievement URL | http://www.cmr.t.u-tokyo.ac.jp/papers/index.shtml |
| Scopus Link to individual page | Scopus |
KAKEN (Latest 10)
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|---|---|
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Research Project
Related pages
- [Articles] Magnetic vortices, bits of the future
- [Press releases] Inauguration of Tokyo College: A new platform for global collaboration and communication
- [Articles] New principle for highly efficient optical device verified
- [Articles] Controlling spins by laser
- [Features] Hierarchies in matter
- [Articles] Observation of quantization in surface Dirac states of topological insulator
- [Articles] Topological devices as an enabler of dissipationless electronics
- [Articles] Detection of Dirac state at a solid-state interface
- [Articles] Creation and low-current-induced drive of skyrmion molecule
- [Articles] Controlling size and helicity of a spin-vortex skyrmion
- [Articles] Discovery of microwave rectification effect using nano-sized spin whirl skyrmion
- [Articles] Discovery of an electronic glass state
- [Articles] Toward high efficiency thermoelectric material operating at low temperatures
- [Articles] Discovery of ferroelectricity and antiferroelectricity in imidazoles
- [Articles] Switching the state of matter
- [Articles] A New Material for Dissipationless Electronics
- [Articles] Driving a spin-vortex “skyrmion” by minute electric current
- [Articles] Control of terahertz light by spin
- [Articles] Measuring manganite’s electronic response
- [Articles] Demonstration of novel principle of electric polarization in an organic ferroelectric
