Research

Scope of Research

   The conventional electronics utilizes mostly the gchargeh of
electrons, while the traditional magnetic devices use mainly gspinh
degree of freedom of electrons. Aiming at the complete control of both
charge and spin in single solid-state devices, a new field called spintronics
is rapidly developing and impacting on information technology.
By combining the atomic-layer deposition with nanofabrication,
we focus on the development of spin properties of various materials
and the control of quantum effects in mesoscopic systems for novel
spintronics devices.


Research Highlights

- Unusual Behavior of Domain Wall under an External Magnetic Field
- New Feature of the Semiconductor Leader: Large Magnetoresistance in Silicon
- Real-time Imaging of the Current-driven Vortex-core motion
- New Scheme for the Quantum Noise Detection: Mesoscopic Bolometry
- Electrical Switching of the Vortex Core
- Toward Pure Nanomagnets

- Previous Works


See more detail in http://ssc1.kuicr.kyoto-u.ac.jp/publish.html