Title :
Study of formation mechanism of nickel silicide discontinuities in high performance CMOS devices
Author :
Kudo, S. ; Hirose, Y. ; Futase, T. ; Ogawa, Y. ; Yamaguchi, T. ; Kihara, K. ; Kashihara, K. ; Murata, N. ; Katayama, T. ; Asayama, K. ; Murakami, E.
Author_Institution :
Process & Device Anal. Eng. Dev. Dept., Renesas Technol. Corp., Itami, Japan
Abstract :
We performed detailed analysis of Ni silicide discontinuities induced by agglomeration that causes the increasing electric resistance in high-performance CMOS devices by using advanced physical analysis techniques. We confirmed that the agglomeration of the Ni silicide is related to elongated-triangular- shaped-splits - which we call delta-shaped-splits-which cause discontinuities that occur at small-angle grain boundaries pinned by boron clusters even with small stress. We successfully determined the formation mechanism of the Ni silicide discontinuities in detail. It is essential to develop a highly reliable Ni salicide process, especially for 45 nm node high performance devices and beyond.
Keywords :
CMOS integrated circuits; electric resistance; nickel; Ni; advanced physical analysis techniques; agglomeration; delta-shaped-splits; electric resistance; elongated-triangular-shaped-splits; high-performance CMOS devices; small-angle grain boundaries; Atomic beams; Backscatter; Crystal microstructure; Diffraction; Nickel; Performance analysis; Random access memory; Scanning electron microscopy; Silicides; Substrates; Atom-Probe analysis; Electron backscatter diffraction analysis; Nickel silicide discontinuity;
Conference_Titel :
Reliability Physics Symposium, 2009 IEEE International
Conference_Location :
Montreal, QC
Print_ISBN :
978-1-4244-2888-5
Electronic_ISBN :
1541-7026
DOI :
10.1109/IRPS.2009.5173270
