Title :
Impact of additional LDD rapid thermal annealing on submicron n-MOSFETs
Author :
Wensheng, Qian ; Leong, V.K.W. ; Yuwen, Wang ; Yisuo, Li ; Mani, Pandey Shesh ; Manju, Sarkar ; Benistant, Francis ; Chu, Sanford
Author_Institution :
Chartered Semicond. Manuf. Ltd., Singapore, Singapore
fDate :
31 March-1 April 2003
Abstract :
An additional NLDD Rapid Thermal Annealing (RTA) had been implemented in thin-gate and thick-gate NMOS transistors. The threshold voltage (Vt) distribution at different gate lengths was investigated for devices with and without NLDD RTA. Lower roll-up and roll-off of Vt was observed with the inclusion of NLDD RTA. However, this observation only occurred for phosphorus-LDD NMOS devices rather than arsenic-LDD NMOS devices. Based on experimental results, TCAD tools was applied to analyze the removal of implant-induced damages by LDD RTA and to investigate the difference in channel profiles before and after LDD RTA. Finally, the mechanism of less Reverse Short Channel Effect and Short Channel Effect with LDD RTA was presented through TCAD simulation results.
Keywords :
MOS integrated circuits; MOSFET; arsenic; boron; doping profiles; phosphorus; rapid thermal annealing; technology CAD (electronics); LDD RTA; Si:As; Si:P; TCAD tools; channel profiles; implant-induced damage; rapid thermal annealing; reverse short channel effect; submicron n-MOSFETs; thick-gate NMOS transistors; thin-gate NMOS transistors; threshold voltage distribution; Etching; Fluctuations; Implants; Impurities; MOS devices; MOSFET circuits; Rapid thermal annealing; Threshold voltage; Voltage measurement; Wood industry;
Conference_Titel :
Advanced Semiconductor Manufacturing Conference and Workshop, 2003 IEEEI/SEMI
Print_ISBN :
0-7803-7681-1
DOI :
10.1109/ASMC.2003.1194498
