Title :
On "effective channel length" in 0.1-μm MOSFETs
Author :
Yuan Taur ; Yuh-Jier Mii ; Logan, R. ; Hon-Sum Wong
Author_Institution :
IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA
fDate :
4/1/1995 12:00:00 AM
Abstract :
The conventional, 1-D definition of "effective channel length" (L/sub eff/) is examined in light of the spatial dependence of channel sheet resistance in 0.1-μm MOSFETs calculated from a 2-D device model. For short-channel devices, the sheet resistance deviates significantly from the uniform, long-channel behavior that L/sub eff/ in general is different from the "metallurgical channel length", L/sub met/. While geometrical (charge-sharing) effects tend to make L/sub eff/ slightly shorter than L/sub met/, lateral source-drain doping gradients, especially when coupled with retrograde channel doping, can make L/sub eff/ substantially longer than L/sub met/. The latter might help explain the apparent "excess" short channel effect often observed in 0.1-μm CMOS devices.
Keywords :
MOSFET; doping profiles; semiconductor device models; semiconductor doping; 0.1 micron; 2D device model; MOSFET; channel sheet resistance; charge-sharing effects; effective channel length; geometrical effects; lateral source-drain doping gradients; metallurgical channel length; retrograde channel doping; short-channel devices; spatial dependence; CMOS technology; Current measurement; Doping; Electric variables measurement; Electrical resistance measurement; Lithography; MOSFET circuits; Semiconductor device modeling; Semiconductor process modeling; Threshold voltage;
Journal_Title :
Electron Device Letters, IEEE
