DocumentCode
1375260
Title
Modified Percolation Model for Polycrystalline High- 
Gate Stack With Grain Boundary Defects
Author
Raghavan, Nagarajan ; Pey, Kin Leong ; Shubhakar, Kalya ; Bosman, Michel
Author_Institution
Sch. of Electr. & Electron. Eng., Nanyang Technol. Univ., Singapore, Singapore
Volume
32
Issue
1
fYear
2011
Firstpage
78
Lastpage
80
Abstract
We modify the existing oxide breakdown (BD) percolation model in this letter to account for the presence of microstructural weakest link grain boundary (GB) defects in polycrystalline high-κ (HK) gate stacks. The different rates of the stress-induced leakage current degradation and oxide trap generation at the bulk and GB regions need to be accounted for in modeling the statistical nature of BD in HK dielectric thin films. Simulated results reveal the dominance of GB-related failures and the origin of the non-Weibull stochastics inherent in polycrystalline HK stacks. We also point to the inability of conventional percolation models with an assumed uniform defect generation to describe the failure statistics of current HK gate stacks.
Keywords
grain boundaries; high-k dielectric thin films; leakage currents; percolation; GB-related failures; HK dielectric thin films; failure statistics; microstructural weakest link grain boundary defects; modified percolation model; non-Weibull stochastics; oxide breakdown percolation model; oxide trap generation; percolation models; polycrystalline HK stacks; polycrystalline high-κ gate stacks; stress-induced leakage current degradation; uniform defect generation; Analytical models; Artificial neural networks; Dielectrics; Electric breakdown; Grain boundaries; Logic gates; Stochastic processes; Grain boundary (GB); high-$kappa$
fLanguage
English
Journal_Title
Electron Device Letters, IEEE
Publisher
ieee
ISSN
0741-3106
Type
jour
DOI
10.1109/LED.2010.2085074
Filename
5629433
Link To Document