Extendibility of NiPt silicide to the 22-nm node CMOS technology
Kazuya Ohuchi, Christian Lavoie, et al.
IWJT 2008
Origins of effective work function (EWF) roll-off behavior accompanied by equivalent oxide thickness (EOT) scaling for high-κ last replacement metal gate (RMG) stacks are investigated using a low-temperature interfacial layer (IL) scavenging technique. The EWF-EOT roll-off is driven by a high work function metal and the trend is linear and reversible by means of IL scavenging and regrowth reactions. These findings are consistent with the oxygen vacancy model, indicating that the same mechanism that plagued gate-first devices emerges as the IL thickness is scaled < 4 Å (EOT 8 Å) for RMG stacks. © 1980-2012 IEEE.
Kazuya Ohuchi, Christian Lavoie, et al.
IWJT 2008
Ryosuke Iijima, Lisa F. Edge, et al.
IEEE T-ED
Tackhwi Lee, Kisik Choi, et al.
Journal of Vacuum Science and Technology B
Franco Stellari, Ernest Y. Wu, et al.
IEEE Electron Device Letters