Title :
Device simulation of submicrometer gate p+-i-p+ diamond transistors
Author :
Miyata, Koichi ; Nishimura, Kozo ; Kobashi, Koji
Author_Institution :
Electron. Res. Lab., Kobe Steel Ltd., Japan
fDate :
11/1/1995 12:00:00 AM
Abstract :
Two-dimensional device simulation of submicrometer gate diamond p +-i-p+ transistors with a SiO2 gate insulator was investigated using the MEDICI device simulation program. A large modulation of the source-to-drain current was obtained in the accumulation mode. The computed diamond device characteristics were equivalent or better than the simulation results of 6H-SiC MESFET´s. It was concluded that the problems in diamond MESFET associated with the deep acceptor levels due to boron doping can be overcome in the p+ -i-p+ diamond FET´s because of the hole injection and the space charge limited current
Keywords :
MOSFET; diamond; elemental semiconductors; semiconductor device models; space-charge-limited conduction; C-SiO2; MEDICI device simulation program; SCLC; SiO2 gate insulator; accumulation mode; hole injection; p+-i-p+ diamond transistors; source-to-drain current modulation; space charge limited current; submicrometer gate; two-dimensional device simulation; Boron; Computational modeling; FETs; Frequency; Insulation; MESFETs; Medical simulation; Schottky diodes; Space charge; Temperature;
Journal_Title :
Electron Devices, IEEE Transactions on
