DocumentCode :
1576606
Title :
Formation of sub-10 nm width InGaAs finFETs of 200 nm height by atomic layer epitaxy
Author :
Cohen-Elias, D. ; Law, Jeremy J. M. ; Chiang, H.W. ; Sivananthan, A. ; Zhang, Chenghui ; Thibeault, Brian J. ; Mitchell, William J. ; Lee, Sang-Rim ; Carter, A.D. ; Huang, Chien-Yi ; Chobpattana, Varistha ; Stemmer, Susanne ; Keller, S. ; Rodwell, Mark J.
Author_Institution :
ECE Dept., Univ. of California, Santa Barbara, Santa Barbara, CA, USA
fYear :
2013
Firstpage :
1
Lastpage :
2
Abstract :
As FETs are scaled, the dielectric and semiconductor channel thicknesses must be reduced to suppress short-channel effects. Even using fin field effect transistors (finFETs) and gate all around FETs (GAAFETs), [1],[2], whose electrostatic performance is excellent, at 4nm gate length the channel should be less than 2nm thick. To obtain high drive current per unit IC die area, the fin height should be many times the fin pitch, i.e. tens to hundreds of nm. Dry-etching a fin of few-nm width and > 100 nm height presents severe challenges in control of etch sidewall slope and in minimizing surface damage. Here we report an InGaAs finFET fabrication flow which form fins of sub-10nm width and 200 nm height. Fin width is controlled by atomic layer epitaxial (ALE) growth and by semiconductor selective crystallographic wet etching. We further demonstrate self-aligned source-drain regrowth in this process [3],[4]. This facilitates scaling of the source/drain pitch to small dimensions.
Keywords :
III-V semiconductors; MOSFET; atomic layer epitaxial growth; etching; gallium arsenide; indium compounds; InGaAs; atomic layer epitaxy; fin width; finFET; self-aligned source-drain regrowth; semiconductor selective crystallographic wet etching; size 10 nm; size 200 nm; source/drain pitch; FinFETs; Indium gallium arsenide; Indium phosphide; Logic gates; Silicon compounds; Tin;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Device Research Conference (DRC), 2013 71st Annual
Conference_Location :
Notre Dame, IN
ISSN :
1548-3770
Print_ISBN :
978-1-4799-0811-0
Type :
conf
DOI :
10.1109/DRC.2013.6633884
Filename :
6633884
Link To Document :
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