Our Activities
Materials Science for Electronics,
Graduate School of Natural Science and Technology
Okayama University
- Electronic States, Structural Stabilities, and Collective Motions
in Semiconductor Superlattices and their Applications to Novel Devices
- Nonlinear Optical Effects in Quantum Wells and Wires
- Superconducting Proximity Effect and Application to Electronic Devices
- Quantum Simulation of Charged Particles and Application to Inertial
Confinement Plasmas
- Structure and Correlation Characteristics of lon Clusters and
Dust Particles in Plasma Processes
- Quantum Simulations of Interfaces of Semiconductors and Ceramics and
Their Applications to Nano Devices
- Structure and Mechanical Properties of Nanophase Materials via
Large-scale Molecular Simulations
- Electronic Structure of Metallic Clusters and Applications to
Electronic Devices
- Parallel Algorithms for Large-scale Molecular Simulations
- Computer Algorithms and Visualization for Large-scale Materials Simulations
- Theory of Structural Phase Transition in Ferroelectrics
- Basic Theory for Material Design of Ferro/Antiferroelectrics
Hiroo TOTSUJI / totsuji @ elec.okayama-u.ac.jp
