DocumentCode :
3559085
Title :
Strain Enhanced nMOS Using In Situ Doped Embedded 
S/D Stressors With up to 1.5% Substitutional C
Author :
Verheyen, Peter ; Machkaoutsan, Vladimir ; Bauer, Matthias ; Weeks, Doran ; Kerner, Christoph ; Clemente, Francesca ; Bender, Hugo ; Shamiryan, Denis ; Loo, Roger ; Hoffmann, Thomas ; Absil, Philippe ; Biesemans, Serge ; Thomas, Shawn G.
Author_Institution :
Interuniversity Microelectron. Center, Leuven
Volume :
29
Issue :
11
fYear :
2008
Firstpage :
1206
Lastpage :
1208
Abstract :
This letter reports on the implementation of high carbon content and high phosphorous content Si1-xCx layers in the source and drain regions of n-type MOSFET in a 65-nm-node integration scheme. The layers were grown using a novel epitaxial process. It is shown that by implementing stressors with x ap 0.01, nMOSFET device performance is enhanced by up to 10%, driving 880 muA/mum at 1-V V DD. It is also demonstrated that the successful implementation of Si1-xCx relies on the careful choice of integration and epitaxial layer parameters. There is a clear impact of the postepitaxial implantation and thermal treatment on the retained substitutional C content ([C sub]). Furthermore, adding a Si capping layer on top of the Si1 -xCx, greatly improves upon the stressors´ stability during the downstream processing and the silicide sheet resistance.
Keywords :
MOSFET; epitaxial growth; heat treatment; phosphorus; semiconductor epitaxial layers; silicon compounds; wide band gap semiconductors; SiC:P; epitaxial growth process; epitaxial layer parameters; in situ doped embedded stressors; n-type MOSFET; postepitaxial implantation; size 65 nm; stressors; thermal treatment; Annealing; Capacitive sensors; Epitaxial growth; Epitaxial layers; Etching; Implants; MOS devices; MOSFETs; Silicides; Stability; $ hbox{Si}_{1 - x}hbox{C}_{x}$
fLanguage :
English
Journal_Title :
Electron Device Letters, IEEE
Publisher :
ieee
ISSN :
0741-3106
Type :
jour
DOI :
10.1109/LED.2008.2005593
Filename :
4655506
Link To Document :
