Title :
Effective Schottky Barrier lowering for contact resistivity reduction using silicides as diffusion sources
Author :
Zhang, Zhen ; Pagette, F. ; Emic, C.D. ; Yang, B. ; Lavoie, C. ; Ray, A. ; Zhu, Y. ; Hopstaken, M. ; Maurer, S. ; Murray, C. ; Guillorn, M. ; Klaus, D. ; Bucchignano, J.J. ; Bruley, J. ; Ott, J. ; Pyzyna, A. ; Newbury, J. ; Song, W. ; Zuo, G. ; Lee, K.-L.
Author_Institution :
T.J. Watson Res. Center, IBM, Yorktown Heights, NY, USA
Abstract :
In this work we present a potential solution for forming ultra-shallow junctions with extremely low contact resistivities in which dopants are implanted into silicides and diffused to the semiconductor interface using low temperature anneals. Conventional silicide process requires a fine tuning of silicide thickness and deep source/drain doping profile to achieve low contact resistance and low source/drain diffusion sheet resistance. With the silicide implantation approach, we show that they can be engineered independently, providing a larger design space for the reduction of total external resistance.
Keywords :
Schottky barriers; contact resistance; Schottky barrier lowering; contact resistance; contact resistivity reduction; diffusion sheet resistance; diffusion sources; silicide thickness; ultrashallow junctions; Conductivity; Schottky barriers; Silicides;
Conference_Titel :
VLSI Technology Systems and Applications (VLSI-TSA), 2010 International Symposium on
Conference_Location :
Hsinchu
Print_ISBN :
978-1-4244-5063-3
Electronic_ISBN :
1524-766X
DOI :
10.1109/VTSA.2010.5488908
