An alternative interpretation of hot electron interface degradation in NMOSFETs: isotope results irreconcilable with major defect generation by holes?

Authors :: Young-Kwang Kim
Karl Hess
Yong-Hee Lee
Joseph W. Lyding
Bong-Seok Kim
Jinju Lee
Zhi Chen
Kwang-Pyuk Suh
Young-Wug Kim
Source :: IEEE Transactions on Electron Devices. 46:1914-1916
Publication Year :: 1999
Publisher :: Institute of Electrical and Electronics Engineers (IEEE), 1999.
Abstract: The giant deuterium isotope effect found previously for NMOS hot electron degradation is applied to study defect generation at the Si-SiO/sub 2/ interface. The data suggest that interface defects related to hydrogen depassivation may be generated directly by channel hot electrons bombarding the interface without the necessity of injection into the oxide. This is in contrast to the standard teaching that energetic holes, created by impact ionization, and injected into the oxide are the main cause for hydrogen-related defect generation at the Si-SiO/sub 2/ interfaces.

Subjects :: Materials science
Hydrogen
Silicon
Passivation
Oxide
Analytical chemistry
chemistry.chemical_element
Molecular physics
Electronic, Optical and Magnetic Materials
Impact ionization
chemistry.chemical_compound
chemistry
Deuterium
Kinetic isotope effect
Electrical and Electronic Engineering
NMOS logic

Full Text Access

Tools