Title :
Impact of gate-poly grain structure on the gate-oxide reliability [CMOS]
Author :
Kamgar, Avid ; Vaidya, H.M. ; Baumann, F.H. ; Nakahara, S.
Author_Institution :
New Jersey Inst. of Technol., Newark, NJ, USA
Abstract :
Time dependent dielectric breakdown of thin oxides, 1.5 to 5.0 nm has been studied for different gate-poly grain structures. The poly grain was varied by the poly deposition, and the source-drain (S/D) rapid thermal anneal (RTA) conditions. The study, which was done on fully fabricated CMOS devices, showed substantial reliability degradation in thin gate oxides (below 2.0 nm), when using S/D RTA temperatures above 1000/spl deg/C. The results can be explained in terms of the interface roughness at the gate poly interface induced by the S/D RTA temperature above the viscoelastic point of the SiO/sub 2/. A possible mechanism for the drastic reliability degradation in thin gate oxides, is the protrusion of poly grains into the softening oxide at high temperature.
Keywords :
CMOS integrated circuits; dielectric thin films; integrated circuit reliability; interface roughness; rapid thermal annealing; semiconductor device breakdown; 1.5 to 5.0 nm; 950 to 1110 degC; Si-SiO/sub 2/; fully fabricated CMOS devices; gate poly interface; gate-oxide reliability; gate-poly grain structure; interface roughness; poly deposition conditions; reliability degradation; source-drain rapid thermal anneal conditions; time dependent dielectric breakdown; viscoelastic point; Dielectric breakdown; Elasticity; Electric breakdown; Rapid thermal annealing; Rapid thermal processing; Softening; Temperature; Thermal degradation; Viscosity;
Journal_Title :
Electron Device Letters, IEEE
