DocumentCode
62198
Title
A Simulation Study of Oxygen Vacancy-Induced Variability in 
/Metal Gated SOI FinFET
Author
Trivedi, Amit Ranjan ; Ando, Takashi ; Singhee, Amith ; Kerber, Pranita ; Acar, Emrah ; Frank, David J. ; Mukhopadhyay, Saibal
Author_Institution
Dept. of Electr. & Comput. Eng., Georgia Inst. of Technol., Atlanta, GA, USA
Volume
61
Issue
5
fYear
2014
fDate
May-14
Firstpage
1262
Lastpage
1269
Abstract
Deposition of a metal gate on high-K dielectric HfO2 is known to generate oxygen vacancy (OVs) defects. Positively charged OVs in the dielectric affect the gate electrostatics and modulate the effective gate workfunction (WF). Count and spatial allocation of OVs varies from device-to-device and induces significant local variability in WF and Vth. This paper presents the statistical models to simulate OV concentration and placement depending on the gate formation conditions. OV-induced variability is studied for SOI FinFET, and compared against the other sources of variability across the technologies. The implications of gate first and gate last processes to the OV concentration/distribution are studied. Simulations show that with channel length and gate dielectric thickness scaling, the OV-induced variability becomes a significant concern.
Keywords
MOSFET; hafnium compounds; high-k dielectric thin films; silicon-on-insulator; statistical analysis; vacancies (crystal); work function; HfO2; OV concentration/distribution; OV-induced variability; channel length; effective gate workfunction; gate dielectric thickness scaling; gate electrostatics; gate first process; gate formation conditions; gate last process; high-k dielectric; metal gated SOI FinFET; oxygen vacancy defects; oxygen vacancy-induced variability; positively charged oxygen vacancy; spatial allocation; statistical models; Energy states; FinFETs; Hafnium compounds; Logic gates; Oxygen; Tin; FinFET; local variability; oxygen vacancy; variability in high- $kappa$ /metal gate-stacks; variability in high-κ/metal gate-stacks.;
fLanguage
English
Journal_Title
Electron Devices, IEEE Transactions on
Publisher
ieee
ISSN
0018-9383
Type
jour
DOI
10.1109/TED.2014.2313086
Filename
6782688
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