Title of article
Enhanced negative substrate bias degradation in nMOSFETs with ultrathin plasma nitrided oxide
Author/Authors
Lin، Horng-Chih نويسنده , , Chien، Chao-Hsin نويسنده , , Huang، Tiao-Yuan نويسنده , , Chang، Chun-yen نويسنده , , Perng، Tsu-Hsiu نويسنده , , Chen، Ching-Wei نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2003
Pages
-332
From page
333
To page
0
Abstract
The degradation induced by substrate hot electron (SHE) injection in 0.13-(mu)m nMOSFETs with ultrathin (~2.0 nm) plasma nitrided gate dielectric was studied. Compared to the conventional thermal oxide, the ultrathin nitrided gate dielectric is found to be more vulnerable to SHE stress, resulting in enhanced threshold voltage (V/sub t/) shift and transconductance (G/sub m/) reduction. The severity of the enhanced degradation increases with increasing nitrogen content in gate dielectric with prolonged nitridation time. While the SHEinduced degradation is found to be strongly related to the injected electron energy for both conventional oxide , and plasma-nitrided oxide, dramatic degradation in threshold voltage shift for nitrided oxide is found to occur at a lower substrate bias magnitude (~-1 V), compared to thermal oxide (~-1.5 V). This enhanced degradation by negative substrate bias in nMOSFETs with plasma-nitrided gate dielectric is attributed to a higher concentration of paramagnetic electron trap precursors introduced during plasma nitridation.
Keywords
Analytical and numerical techniques , heat transfer , natural convection
Journal title
IEEE Electron Device Letters
Serial Year
2003
Journal title
IEEE Electron Device Letters
Record number
99970
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