Title :
Thin silicide development for fully-depleted SOI CMOS technology
Author :
Liu, Harvey I. ; Burns, James A. ; Keast, Craig L. ; Wyatt, Peter W.
Author_Institution :
Lincoln Lab., MIT, Lexington, MA, USA
fDate :
5/1/1998 12:00:00 AM
Abstract :
Ultrathin silicide with thickness less than 30 nm and specific contact resistivity to silicon less than mid-10-7Ω-cm 2 is necessary for achieving low contact resistance in a sub-0.25-μm fully-depleted (FD) silicon-on-insulator (SOI) CMOS technology. This contact problem becomes even more severe as one continues to scale down the device dimensions. We first studied the effects of source/drain series resistance and gate sheet resistance on the device speed performance and obtained a set of desired design criteria. These were used along with a transmission line model to yield a silicide design space, which was then used to evaluate the experimental results. Both cobalt and titanium silicide processes were implemented and found to satisfy the design criteria. Final device characteristics were also measured. Several process integration issues related to contact dielectric deposition and contact barrier integrity were found to greatly impact the final contact properties. These along with the detailed fabrication process are discussed
Keywords :
MOSFET; contact resistance; semiconductor device metallisation; silicon-on-insulator; 0.25 micron; CoSi2; TiSi2; barrier integrity; design; dielectric deposition; fabrication; fully-depleted SOI CMOS technology; gate sheet resistance; process integration; source/drain series resistance; specific contact resistivity; transmission line model; ultrathin silicide formation; CMOS technology; Cobalt; Conductivity; Contact resistance; Dielectric measurements; Fabrication; Silicides; Silicon on insulator technology; Titanium; Transmission line measurements;
Journal_Title :
Electron Devices, IEEE Transactions on
