Interface trap and oxide charge generation under negative bias temperature instability of p -channel metal-oxide-semiconductor field-effect transistors with ultrathin plasma-nitrided SiON gate dielectrics

The interface trap generation ( Δ N it ) and fixed oxide charge buildup ( Δ N ot ) under negative bias temperature instability (NBTI) of p -channel metal-oxide-semiconductor field-effect transistors ( p MOSFETs) with ultrathin (2 nm) plasma-nitrided SiON gate dielectrics were studied using a modifie...

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Veröffentlicht in:	Journal of applied physics 2005-12, Vol.98 (11), p.114504-114504-6
Hauptverfasser:	Zhu, Shiyang, Nakajima, Anri, Ohashi, Takuo, Miyake, Hideharu
Format:	Artikel
Sprache:	eng
Schlagworte:	ACTIVATION ENERGY DIELECTRIC MATERIALS DIRECT CURRENT ELECTRIC POTENTIAL INSTABILITY INTERFACES MATERIALS SCIENCE METALS MOSFET NITRIDATION NITROGEN PLASMA SEMICONDUCTOR MATERIALS SILICON NITRIDES SILICON OXIDES STRESSES THIN FILMS TIME DEPENDENCE TRAPS
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container_end_page	114504-6
container_issue	11
container_start_page	114504
container_title	Journal of applied physics
container_volume	98
creator	Zhu, Shiyang Nakajima, Anri Ohashi, Takuo Miyake, Hideharu
description	The interface trap generation ( Δ N it ) and fixed oxide charge buildup ( Δ N ot ) under negative bias temperature instability (NBTI) of p -channel metal-oxide-semiconductor field-effect transistors ( p MOSFETs) with ultrathin (2 nm) plasma-nitrided SiON gate dielectrics were studied using a modified direct-current-current-voltage method and a conventional subthreshold characteristic measurement. Different stress time dependences were shown for Δ N it and Δ N ot . At the earlier stress times, Δ N it dominates the threshold voltage shift ( Δ V th ) and Δ N ot is negligible. With increasing stress time, the rate of increase of Δ N it decreases continuously, showing a saturating trend for longer stress times, while Δ N ot still has a power-law dependence on stress time so that the relative contribution of Δ N ot increases. The thermal activation energy of Δ N it and the NBTI lifetime of p MOSFETs, compared at a given stress voltage, are independent of the peak nitrogen concentration of the SiON film. This indicates that plasma nitridation is a more reliable method for incorporating nitrogen in the gate oxide.
doi_str_mv	10.1063/1.2138372
format	Article
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Different stress time dependences were shown for Δ N it and Δ N ot . At the earlier stress times, Δ N it dominates the threshold voltage shift ( Δ V th ) and Δ N ot is negligible. With increasing stress time, the rate of increase of Δ N it decreases continuously, showing a saturating trend for longer stress times, while Δ N ot still has a power-law dependence on stress time so that the relative contribution of Δ N ot increases. The thermal activation energy of Δ N it and the NBTI lifetime of p MOSFETs, compared at a given stress voltage, are independent of the peak nitrogen concentration of the SiON film. 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Different stress time dependences were shown for Δ N it and Δ N ot . At the earlier stress times, Δ N it dominates the threshold voltage shift ( Δ V th ) and Δ N ot is negligible. With increasing stress time, the rate of increase of Δ N it decreases continuously, showing a saturating trend for longer stress times, while Δ N ot still has a power-law dependence on stress time so that the relative contribution of Δ N ot increases. The thermal activation energy of Δ N it and the NBTI lifetime of p MOSFETs, compared at a given stress voltage, are independent of the peak nitrogen concentration of the SiON film. This indicates that plasma nitridation is a more reliable method for incorporating nitrogen in the gate oxide.</abstract><cop>United States</cop><pub>American Institute of Physics</pub><doi>10.1063/1.2138372</doi><oa>free_for_read</oa></addata></record>
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subjects	ACTIVATION ENERGY DIELECTRIC MATERIALS DIRECT CURRENT ELECTRIC POTENTIAL INSTABILITY INTERFACES MATERIALS SCIENCE METALS MOSFET NITRIDATION NITROGEN PLASMA SEMICONDUCTOR MATERIALS SILICON NITRIDES SILICON OXIDES STRESSES THIN FILMS TIME DEPENDENCE TRAPS
title	Interface trap and oxide charge generation under negative bias temperature instability of p -channel metal-oxide-semiconductor field-effect transistors with ultrathin plasma-nitrided SiON gate dielectrics
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