Analysis and Design of Electromagnetic Wave Devices
Quantum Mechanical Computer Aided Design of Nanoscale Devices
Computational Electromagnetics
Study on Quantum Well Lasers
Study on Quantum Transport in Nanostructure Devices
全件表示
論文 (15件):
Mori Takashi, Azuma Yusuke, Tsuchiya Hideaki, Miyoshi Tanroku. Comparative Study on Drive Current of III-V Semiconductor, Ge and Si Channel n- mosfets based on Quantum-Corrected Monte Carlo Simulation. IEEE Trans. on Nanotechnology. 2008. 7. 2. 237-241
Helmy Fitriawan, Matsuto Ogawa, Satofumi Souma, Tanroku Miyoshi. Non-equilibrium Green's function method for modeling quantum electron transport in nano-scale devices with anisotropic multiband structure. JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS. 2008. 19. 2. 107-110
Helmy Fitriawan, Matsuto Ogawa, Satofumi Souma, Tanroku Miyoshi. Quantum electron transport modeling in uniaxially strained silicon channel of double-gate MOSFETs. PHYSICA STATUS SOLIDI C - CURRENT TOPICS IN SOLID STATE PHYSICS, VOL 5, NO 1. 2008. 5. 1. 74-77
Tsuchiya Hideaki, Fujii Kazuya, Mori Takashi, Miyoshi Tanroku. A quantum-corrected Monte Carlo study on quasi-ballistic transport in nanoscale MOSFETs. IEEE Transactions on Electron Devices. 2006. 53. 12. 2965-2971
H Tsuchiya, A Oda, M Ogawa, T Miyoshi. Quantum-corrected Monte Carlo and molecular dynamics simulation on electron-density-dependent velocity saturation in silicon metal-oxide-semiconductor field-effect transistors. JAPANESE JOURNAL OF APPLIED PHYSICS PART 1-REGULAR PAPERS BRIEF COMMUNICATIONS & REVIEW PAPERS. 2005. 44. 11. 7820-7826
TSUCHIYA Hideaki, FUJII Kazuya, MORI Takashi, MIYOSHI Tanroku. A Picture of Quasi-Ballistic Transport in Nanoscale MOSFETs. Extended abstracts of the ... Conference on Solid State Devices and Materials. 2006. 2006. 350-351
TERATANI Yoshiyuki, ANDO Tomohiro, TSUCHIYA Hideaki, MIYOSHI Tanroku. A First Principles Study on Electronic Band Structures of Nano-Scaled SOI Films. Extended abstracts of the ... Conference on Solid State Devices and Materials. 2005. 2005. 270-271