DocumentCode
1115738
Title
Stress management in sub-90-nm transistor architecture
Author
Arghavani, R. ; Yuan, Z. ; Ingle, N. ; Jung, K.B. ; Seamons, M. ; Venkataraman, S. ; Banthia, V. ; Lilja, K. ; Leon, P. ; Karunasiri, G. ; Yoon, S. ; Mascarenhas, A.
Author_Institution
Appl. Mater. Inc., Santa Clara, CA, USA
Volume
51
Issue
10
fYear
2004
Firstpage
1740
Lastpage
1744
Abstract
This brief focuses on the physical characteristics of three dielectric films which can induce a significant degree of tensile or compressive stress in the channel of a sub-90-nm node MOS structure. Manufacturable and highly reliable oxide films have demonstrated, based on simulation, the ability to induce greater than 1.5-GPa tensile stress in the Si channel, when used as shallow trench isolation (STI) fill. Low-temperature blanket nitride films with a stress range of 2 GPa compressive to greater than 1.4 GPa tensile were also developed to enhance performance in both PMOS and NMOS devices. Combined with a tensile first interlayer dielectric film, the stress management and optimization of the above films can yield significant performance improvement without additional cost, or integration complexities.
Keywords
MOS integrated circuits; MOSFET; compressive strength; dielectric thin films; nanoelectronics; silicon; tensile strength; 90 nm; MOS structure; NMOS device; PMOS device; STI; Si; Si channel; compressive stress; dielectric films; film optimization; low-temperature blanket nitride films; oxide films; semiconductor device fabrication; semiconductor films; shallow trench isolation; stress management; sub-90 nm transistor architecture; tensile first interlayer dielectric film; tensile stress; Capacitive sensors; Compressive stress; Dielectric films; Isolation technology; Lattices; MOS devices; Moore´s Law; Semiconductor films; Silicon germanium; Tensile stress; Dielectric films; semiconductor device fabrication; semiconductor films;
fLanguage
English
Journal_Title
Electron Devices, IEEE Transactions on
Publisher
ieee
ISSN
0018-9383
Type
jour
DOI
10.1109/TED.2004.835993
Filename
1337191
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