Statistical Models for Hot Electron Degradation in Nano-Scaled MOSFET Devices

Author

Bae, Suk Joo ; Kim, Seong-Joon ; Kuo, Way ; Kvam, Paul H.

Author_Institution

Hanyang Univ., Seoul

Volume

56

Issue

3

fYear

2007

Firstpage

392

Lastpage

400

Abstract

In a MOS structure, the generation of hot carrier interface states is a critical feature of the item´s reliability. On the nano-scale, there are problems with degradation in transconductance, shift in threshold voltage, and decrease in drain current capability. Quantum mechanics has been used to relate this decrease to degradation, and device failure. Although the lifetime, and degradation of a device are typically used to characterize its reliability, in this paper we model the distribution of hot-electron activation energies, which has appeal because it exhibits a two-point discrete mixture of logistic distributions. The logistic mixture presents computational problems that are addressed in simulation.

Keywords

MOSFET; hot carriers; maximum likelihood estimation; nanotechnology; semiconductor device reliability; MOS structure; device failure; hot carrier interface states; hot electron degradation; logistic distribution; maximum likelihood; mixture distribution; nano-scaled MOSFET devices; nanotechnology; semiconductor device reliability; statistical models; Degradation; Electrons; Hot carriers; Interface states; Logistics; MOSFET circuits; Nanoscale devices; Quantum mechanics; Threshold voltage; Transconductance; EM algorithm; logistic distribution; maximum likelihood; mixture distribution; nanotechnology;

fLanguage

English

Journal_Title

Reliability, IEEE Transactions on

Publisher

ieee

ISSN

0018-9529

Type

jour

DOI

10.1109/TR.2007.903232

Filename

4298225