Title :
Shallow source/drain extension effects on external resistance in sub-0.1 μm MOSFETs
Author :
Choi, Chang-Hoon ; Goo, Jung-Suk ; Yu, Zhiping ; Dutton, Robert W.
Author_Institution :
Center for Integrated Syst., Stanford Univ., CA, USA
fDate :
3/1/2000 12:00:00 AM
Abstract :
Accurate external resistance extraction for shallow source/drain extension (SDE) MOSFET´s is demonstrated using a unified mobility model for inversion and accumulation layers. The parasitic resistance in the accumulation layer (Racc) is highly dependent both on the SDE junction depth (Xj) and the gate overlap length (Lou ). Due to the laterally finite doping gradient, Racc becomes dominant among other external resistance components in sub-0.1 μm MOSFETs. Hence, device optimization to minimize Racc is necessary in order to improve on-current and SDE to the gate coupling. A NMOS transistor with Leff of 0.08 μm shows a maximum on-current while maintaining a lower off-leakage current for a Lou of 20 nm and Xj of 40 nm
Keywords :
MOSFET; accumulation layers; carrier mobility; inversion layers; semiconductor device models; semiconductor doping; MOSFET; NMOS transistor; accumulation layers; device optimization; external resistance; gate overlap length; inversion layers; junction depth; laterally finite doping gradient; off-leakage current; on-current; parasitic resistance; shallow source/drain extension; unified mobility model; Dark current; Dielectrics; Electrons; Gallium arsenide; Infrared detectors; Leak detection; MOSFET circuits; Photodetectors; Plasma properties; Plasma stability;
Journal_Title :
Electron Devices, IEEE Transactions on
