Anomalous negative bias temperature instability behavior in p -channel metal-oxide-semiconductor field-effect transistors with HfSiON/SiO2 gate stack

Shih Chang Chen; Chao-Hsin Chien; Jen Chung Lou

doi:10.1063/1.2745649

Anomalous negative bias temperature instability behavior in p -channel metal-oxide-semiconductor field-effect transistors with HfSiON/SiO₂ gate stack

Shih Chang Chen^*, Chao-Hsin Chien, Jen Chung Lou

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

In this letter, the authors systematically investigated the behavior of negative bias temperature instability of p -channel metal-oxide-semiconductor field-effect transistors with HfSiONSi O2 gate stack. They found that typical linear extrapolation does not work well for the lifetime extraction at the normal operation conditions since the polarities of the net trapped charge inside the high- κ dielectrics are not the same at lower and higher stress voltage regimes. In other words, as ∫ Vg ∫ <2.5 V electron trapping dominated while hole trapping dominated when ∫ Vg ∫ >2.5 V. This phenomenon obviously contradicts the essence of the linear prediction in which the same degradation mechanism is assumed through the entire stress voltage range.

Original language	English
Article number	233505
Journal	Applied Physics Letters
Volume	90
Issue number	23
DOIs	https://doi.org/10.1063/1.2745649
State	Published - 27 Jun 2007

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title = "Anomalous negative bias temperature instability behavior in p -channel metal-oxide-semiconductor field-effect transistors with HfSiON/SiO2 gate stack",

abstract = "In this letter, the authors systematically investigated the behavior of negative bias temperature instability of p -channel metal-oxide-semiconductor field-effect transistors with HfSiONSi O2 gate stack. They found that typical linear extrapolation does not work well for the lifetime extraction at the normal operation conditions since the polarities of the net trapped charge inside the high- κ dielectrics are not the same at lower and higher stress voltage regimes. In other words, as ∫ Vg ∫ <2.5 V electron trapping dominated while hole trapping dominated when ∫ Vg ∫ >2.5 V. This phenomenon obviously contradicts the essence of the linear prediction in which the same degradation mechanism is assumed through the entire stress voltage range.",

author = "Chen, {Shih Chang} and Chao-Hsin Chien and Lou, {Jen Chung}",

year = "2007",

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T1 - Anomalous negative bias temperature instability behavior in p -channel metal-oxide-semiconductor field-effect transistors with HfSiON/SiO2 gate stack

AU - Chen, Shih Chang

AU - Chien, Chao-Hsin

AU - Lou, Jen Chung

PY - 2007/6/27

Y1 - 2007/6/27

N2 - In this letter, the authors systematically investigated the behavior of negative bias temperature instability of p -channel metal-oxide-semiconductor field-effect transistors with HfSiONSi O2 gate stack. They found that typical linear extrapolation does not work well for the lifetime extraction at the normal operation conditions since the polarities of the net trapped charge inside the high- κ dielectrics are not the same at lower and higher stress voltage regimes. In other words, as ∫ Vg ∫ <2.5 V electron trapping dominated while hole trapping dominated when ∫ Vg ∫ >2.5 V. This phenomenon obviously contradicts the essence of the linear prediction in which the same degradation mechanism is assumed through the entire stress voltage range.

AB - In this letter, the authors systematically investigated the behavior of negative bias temperature instability of p -channel metal-oxide-semiconductor field-effect transistors with HfSiONSi O2 gate stack. They found that typical linear extrapolation does not work well for the lifetime extraction at the normal operation conditions since the polarities of the net trapped charge inside the high- κ dielectrics are not the same at lower and higher stress voltage regimes. In other words, as ∫ Vg ∫ <2.5 V electron trapping dominated while hole trapping dominated when ∫ Vg ∫ >2.5 V. This phenomenon obviously contradicts the essence of the linear prediction in which the same degradation mechanism is assumed through the entire stress voltage range.

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Anomalous negative bias temperature instability behavior in p -channel metal-oxide-semiconductor field-effect transistors with HfSiON/SiO₂ gate stack

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