DocumentCode
1301273
Title
1.6 nm oxide equivalent gate dielectrics using nitride/oxide (N/O) composites prepared by RPECVD/oxidation process
Author
Wu, Y. ; Lee, Y.-M. ; Lucovsky, G.
Author_Institution
Adv. Micro Devices Inc., Sunnyvale, CA, USA
Volume
21
Issue
3
fYear
2000
fDate
3/1/2000 12:00:00 AM
Firstpage
116
Lastpage
118
Abstract
Ultrathin nitride/oxide (/spl sim/1.5/0.7 nm) dual layer gate dielectrics have been formed using remote plasma enhanced CVD of nitride onto plasma-grown oxide interface layers. High accumulation capacitance (1.72 μF/cm2) is measured and the equivalent oxide thickness is 1.6 nm after quantum effect corrections. Compared to 1.6 nm oxides, a tunneling current reduction of more than 100 fold is found for devices with 1.6 nm N/O dielectrics due to increased film thickness and interface nitridation. Hole channel mobility decreases by about 5%, yielding very good P-MOSFET current drive. Excellent dielectric reliability and interface robustness are also demonstrated for P-MOSFET´s with N/O dielectrics.
Keywords
MOSFET; carrier mobility; dielectric thin films; nitridation; oxidation; plasma CVD coatings; tunnelling; P-MOSFET; SiO/sub 2/-Si/sub 3/N/sub 4/; capacitance; current drive; equivalent oxide thickness; hole channel mobility; interface nitridation; oxidation; quantum effect; reliability; remote plasma enhanced CVD; tunneling current; ultrathin nitride/oxide composite dual-layer gate dielectric; Capacitance measurement; Dielectric devices; Dielectric measurements; MOSFET circuits; Plasma devices; Plasma measurements; Quantum capacitance; Robustness; Thickness measurement; Tunneling;
fLanguage
English
Journal_Title
Electron Device Letters, IEEE
Publisher
ieee
ISSN
0741-3106
Type
jour
DOI
10.1109/55.823574
Filename
823574
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