Title :
A 22-nm damascene-gate MOSFET fabrication with 0.9-nm EOT and local channel implantation
Author :
Jeong-Dong Choe ; Chang-Sub Lee ; Sung-Ho Kim ; Sung-Min Kim ; Shin-Ae Lee ; Ju-Won Lee ; Shin, Y.-G. ; Donggun Park ; Kinam Kim
Author_Institution :
R&D Center, Samsung Electron. Co., Gyeonggi-Do, South Korea
fDate :
3/1/2003 12:00:00 AM
Abstract :
We introduce a novel CMOS transistor fabrication technique using damascene gate with local channel implantation (LCI). This transistor has a benefit to reduce the resistance of source/drain extension (SDE) localizing the severe blanket channel implantation under the channel only. It can reduce the junction capacitance as well. This process technology is reliable for the formation of channel length down to 22 nm with smooth gate line edge roughness. Some unique processes for the small transistor fabrication are also introduced. The 22-nm nMOSFET with 0.9 nm RTO is achieved with the drive current of 930 μA/μm for the off-current of 100 nA/μm at 1.0 V. Hot carrier reliability exceeding 10 years for 1.0 V operation is also obtained.
Keywords :
CMOS integrated circuits; MOSFET; capacitance; hot carriers; integrated circuit reliability; integrated circuit technology; ion implantation; oxidation; rapid thermal annealing; semiconductor device reliability; 0.9 nm; 1 V; 10 year; 22 nm; CMOS transistor fabrication technique; CMOSFET; blanket channel implantation; damascene-gate MOSFET fabrication; hot carrier reliability; junction capacitance reduction; local channel implantation; process technology; source/drain extension resistance reduction; spike anneal; CMOS technology; Capacitance; Dielectrics; Hot carriers; MOSFET circuits; Optical device fabrication; Rapid thermal processing; Research and development; Silicon compounds; Space technology;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2003.811401
