Title :
Suppression of reverse short channel effect by high energy implantation
Author :
Chaudhrya, S. ; Rafferty, C.S. ; Nagy, W.J. ; Chyan, Y.F. ; Carroll, M.S. ; Chen, A.S. ; Lee, K.H.
Author_Institution :
Lucent Technols., Bell Labs., Orlando, FL, USA
Abstract :
This study demonstrates the almost complete suppression of reverse short channel effect (RSCE) in a technology using high energy implanted tubs, compared to a technology using a conventional diffused tub. The conventional and high energy implanted (HEI) process flows have identical source/drain processing. The suppression of RSCE is explained by differences in implant-induced boron pile-up at the silicon-gate oxide interface during tub annealing and source/drain annealing. The laterally uniform pile-up induced by annealing the high energy implants inhibits the nonuniform pile-up induced by annealing the source/drain implants. The RSCE was reduced from 100 mV in the conventional process to an insignificant 10 mV in the HEI process.
Keywords :
MOSFET; annealing; doping profiles; ion implantation; oxidation; semiconductor process modelling; NMOSFET; Si-gate oxide interface; Si:B-SiO/sub 2/; gate oxidation; high energy implantation; high energy implanted tubs; implant-induced B pile-up; laterally uniform pile-up; nonuniform pile-up; reverse short channel effect suppression; simulation; source/drain annealing; source/drain processing; tub annealing; vertical doping profiles; Annealing; Boron; Doping profiles; Flowcharts; Implants; MOSFETs; Oxidation; Silicon; Temperature; Threshold voltage;
Conference_Titel :
Electron Devices Meeting, 1997. IEDM '97. Technical Digest., International
Conference_Location :
Washington, DC, USA
Print_ISBN :
0-7803-4100-7
DOI :
10.1109/IEDM.1997.650474
