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Finite element modeling and Raman study of strain distribution in patterned device islands on strained Silicon-on-Insulator (sSOI) substrates

 
: Gu, D.; Baumgart, H.; Naumann, F.; Petzold, M.

:

Colinge, C. ; Electrochemical Society -ECS-:
Semiconductor Wafer Bonding 11. Science, Technology, and Applications : In honor of Ulrich Gösele; Presented in the symposium entitled "Semiconductor Wafer Bonding 11: Science, Technology, and Applications - in Honor of Ulrich Gösele" held during the 218th meeting of the Electrochemical Society, in Las Vegas, Nevada from October 10 to 15, 2010
Pennington, NJ: ECS, 2010 (ECS transactions 33.2010, Nr.4)
ISBN: 978-1-566-77823-7
ISBN: 978-1-60768-173-1
ISSN: 1938-5862
S.529-535
International Symposium on Semiconductor Wafer Bonding: Science, Technology, and Applications <11, 2010, Las Vegas/Nev.>
Electrochemical Society (Meeting) <218, 2010, Las Vegas/Nev.>
Englisch
Konferenzbeitrag
Fraunhofer IWM ()

Abstract
Finite Element (FE) Analysis was performed to study the strain relaxation of the strained Si on insulator (sSOI) wafers with different patterned size and thickness of the sSi layer. The results from FE simulation corroborate the experimental results from Raman microprobe spectroscopy. For patterned device islands without capping the biaxial tensile strain (in-plane strain either in X or Y direction) in the sSOI layer may relax completely when the sSOI device island size shrinks below a critical geometry. As the size of quadratic device islands is steadily decreased, the dominant relaxation effects at the corners overlap and spread until they span the entire device structure. Finite Element Analysis provides a detailed understanding of the strain distribution and demonstrates the evolution of strain relaxation from the pattern corners and island edges to eventually encompass the entire device island for very small subcritical geometries. ©The Electrochemical Society.

: http://publica.fraunhofer.de/dokumente/N-172587.html