Title :
Direct comparison of electrical performance of 0.1-μm pMOSFETs doped by plasma doping or low energy ion implantation
Author :
Lenoble, D. ; Grouillet, A. ; Arnaud, F. ; Haond, M. ; Feich, S.B. ; Fang, Z. ; Walther, S. ; Liebert, R.B.
Author_Institution :
CNET, Meylan, France
Abstract :
The fabrication of ultra-shallow junctions (USJ) is becoming one of the most challenging tasks for advanced CMOS technology. We experimentally show the limits of the standard ion implantation technique. Then, we demonstrate the benefit induced by the use of the low biased PLAsma Doping (PLAD) processes to fabricate USJ. Next, we have fabricated deep sub-micrometer pMOSFETs. The measured electrical results show that the basic device performance is improved when the source/drain extensions are plasma doped instead of the standard BF2+ implantation. We attribute this improvement to a better control of the lateral spread of the extensions under the gate. This characteristic is directly correlated to the strong reduction of the junction depth when the PLAD technique is used
Keywords :
CMOS integrated circuits; MOSFET; doping profiles; ion implantation; plasma materials processing; semiconductor device measurement; semiconductor doping; 0.1 mum; BF2+ implantation; PLAD processes; advanced CMOS technology; deep sub-micrometer pMOSFETs; electrical performance; fabrication; junction depth; lateral spread; low biased plasma doping processes; low energy ion implantation; pMOSFETs; plasma doping; source/drain extensions; ultra-shallow junctions; CMOS technology; Doping; Electric variables measurement; Fabrication; Ion implantation; MOSFETs; Plasma devices; Plasma immersion ion implantation; Plasma measurements; Plasma sources;
Conference_Titel :
Ion Implantation Technology, 2000. Conference on
Conference_Location :
Alpbach
Print_ISBN :
0-7803-6462-7
DOI :
10.1109/.2000.924189
