Title :
High performance 0.18 um nMOSFET by TED suppression
Author :
Kim, Hyun-sik ; Ahn, Jong-Hyon ; Lee, Duk-Min ; Lee, Soo-Cheol ; Suh, Kwang-Pyuk
Author_Institution :
CPU Technol. Team, Samsung Electron. Co. Ltd., Kyungki, South Korea
Abstract :
In deep sub-quarter micron, Transient Enhanced Diffusion (TED) of gate channel (Lgate) region seriously gives rise to the variation of device characteristics due to the increase of interstitial silicon atoms. Channel impurity variation by this TED becomes more dominant factor to bring about the severe fluctuation of threshold voltage than the gate length or the gate oxide thickness variation does. This work presents the results of suppressing Reverse Short Channel Effect (RSCE) which severely is showed in the selectively implanted channel process using local implant process. In case of using boron as the n-channel dopant, the 10% improvement of RSCE and the 35% reduction of Vth fluctuation are achieved through TED suppression by Rapid Thermal Anneal (RTA) treatment. We not only demonstrated the 15% increase of current drive but also removed RSCE clearly by realizing of Super-Steep Retrograded (SSR) channel doping profile with indium
Keywords :
MOSFET; diffusion; doping profiles; ion implantation; rapid thermal annealing; 0.18 micron; Si:B; Si:In; current drive; interstitial; ion implantation; nMOSFET; rapid thermal annealing; reverse short channel effect; super-steep retrograded doping profile; threshold voltage; transient enhanced diffusion; Boron; Doping profiles; Fluctuations; Implants; Impurities; MOSFET circuits; Rapid thermal annealing; Rapid thermal processing; Silicon; Threshold voltage;
Conference_Titel :
VLSI and CAD, 1999. ICVC '99. 6th International Conference on
Conference_Location :
Seoul
Print_ISBN :
0-7803-5727-2
DOI :
10.1109/ICVC.1999.820851
