Title :
High-field transport of inversion-layer electrons and holes including velocity overshoot
Author :
Assaderaghi, Fariborz ; Sinitsky, Dennis ; Bokor, Jeffrey ; Ko, Ping K. ; Gaw, Henry ; Hu, Chenming
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., California Univ., Berkeley, CA, USA
fDate :
4/1/1997 12:00:00 AM
Abstract :
In this paper, we experimentally address the effect of a wide range of parameters on the high-field transport of inversion-layer electrons and holes. The studied parameters include substrate doping level, surface micro-roughness, vertical field strength, nitridation of the gate oxide, and device channel length. We employ special test structures built on Silicon-On-Insulator (SOI) and bulk wafers to accurately measure the high-field drift velocity of inversion-layer carriers. Our findings point to electron velocity overshoot at room temperature, dependence of electron and hole saturation velocities on nitridation of the gate oxide, dependence of the high-field drift velocity on the effective vertical field, and relative insensitivity of electron and hole mobility and saturation velocity to moderate surface roughness
Keywords :
MOSFET; doping profiles; electron mobility; high field effects; hole mobility; inversion layers; nitridation; silicon-on-insulator; surface topography; SOI wafers; Si; bulk wafers; device channel length; electron saturation velocities; gate oxide nitridation; high-field drift velocity; high-field transport; hole saturation velocities; inversion-layer electrons; inversion-layer holes; substrate doping level; surface micro-roughness; velocity overshoot; vertical field strength; Calibration; Charge carrier processes; Doping; Electron mobility; Rough surfaces; Silicon on insulator technology; Surface roughness; Temperature dependence; Testing; Velocity measurement;
Journal_Title :
Electron Devices, IEEE Transactions on
