Title :
Electron wavefunction penetration into gate dielectric and interface scattering-an alternative to surface roughness scattering model
Author :
Polishchuk, I. ; Chenming Hu
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., California Univ., Berkeley, CA, USA
Abstract :
A quantum mechanical (QM) simulator was used to determine the amount of carrier wavefunction penetration into gate dielectric. The amount of penetration affects the inversion charge density Q/sub inv/, inversion charge centroid, and most importantly carrier mobility. It is shown that interface scattering due to wavefunction penetration is in better agreement with the universal mobility data than the surface roughness scattering mechanism. The interface scattering allows the extension of the universal mobility model from SiO/sub 2/ to high-K gate dielectrics.
Keywords :
MIS structures; dielectric thin films; electron mobility; interface states; inversion layers; permittivity; surface scattering; wave functions; SiO/sub 2/ gate dielectrics; SiO/sub 2/-Si; carrier mobility; carrier wavefunction penetration; electron wavefunction penetration; gate dielectric; high-K gate dielectrics; interface scattering; inversion charge centroid; inversion charge density; quantum mechanical simulator; surface roughness scattering model; universal mobility data; universal mobility model; wavefunction penetration; Amorphous materials; Electron mobility; High-K gate dielectrics; Oxidation; Particle scattering; Quantum mechanics; Rough surfaces; Surface roughness; Surface waves; Wave functions;
Conference_Titel :
VLSI Technology, 2001. Digest of Technical Papers. 2001 Symposium on
Conference_Location :
Kyoto, Japan
Print_ISBN :
4-89114-012-7
DOI :
10.1109/VLSIT.2001.934942
