Nanometer-scale leakage measurements in high vacuum on de-processed high-k capacitors

M. Nafria; W. Polspoel; L. Aguilera; M. Porti; W. Vandervorst; X. Aymerich

doi:10.1016/j.microrel.2008.07.026

Nanometer-scale leakage measurements in high vacuum on de-processed high-k capacitors

M. Nafria, W. Polspoel, L. Aguilera, M. Porti, W. Vandervorst, X. Aymerich

Departamento de Ingeniería Electrónica

Producción científica: Contribución a una revista › Artículo › Investigación › revisión exhaustiva

12 Citas (Scopus)

Resumen

Conductive atomic force microscopy (C-AFM) allows probing local phenomena such as trap assisted tunneling and oxide breakdown, which hamper meeting the high-k device requirements. In this work we present the improvement of Conductive AFM measurements in high vacuum (1e-5 torr) due to improved preservation of tip conductivity. Furthermore, we describe the gate removal process of real MOS devices, enabling standard macroscopic and microscopic measurements on the same gate dielectric. Using this procedure, we are able with C-AFM to locate the BD spots induced by standard macroscopic constant voltage stress. The C-AFM measured local current-voltage (I-V) characteristic of a single BD spot aligns well with the macroscopic post breakdown I-V trace. © 2008 Elsevier Ltd. All rights reserved.

Idioma original	Inglés
Páginas (desde-hasta)	1521-1524
Publicación	Microelectronics Reliability
Volumen	48
DOI	https://doi.org/10.1016/j.microrel.2008.07.026
Estado	Publicada - 1 ago 2008

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title = "Nanometer-scale leakage measurements in high vacuum on de-processed high-k capacitors",

abstract = "Conductive atomic force microscopy (C-AFM) allows probing local phenomena such as trap assisted tunneling and oxide breakdown, which hamper meeting the high-k device requirements. In this work we present the improvement of Conductive AFM measurements in high vacuum (1e-5 torr) due to improved preservation of tip conductivity. Furthermore, we describe the gate removal process of real MOS devices, enabling standard macroscopic and microscopic measurements on the same gate dielectric. Using this procedure, we are able with C-AFM to locate the BD spots induced by standard macroscopic constant voltage stress. The C-AFM measured local current-voltage (I-V) characteristic of a single BD spot aligns well with the macroscopic post breakdown I-V trace. {\textcopyright} 2008 Elsevier Ltd. All rights reserved.",

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AU - Nafria, M.

AU - Polspoel, W.

AU - Aguilera, L.

AU - Porti, M.

AU - Vandervorst, W.

AU - Aymerich, X.

PY - 2008/8/1

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N2 - Conductive atomic force microscopy (C-AFM) allows probing local phenomena such as trap assisted tunneling and oxide breakdown, which hamper meeting the high-k device requirements. In this work we present the improvement of Conductive AFM measurements in high vacuum (1e-5 torr) due to improved preservation of tip conductivity. Furthermore, we describe the gate removal process of real MOS devices, enabling standard macroscopic and microscopic measurements on the same gate dielectric. Using this procedure, we are able with C-AFM to locate the BD spots induced by standard macroscopic constant voltage stress. The C-AFM measured local current-voltage (I-V) characteristic of a single BD spot aligns well with the macroscopic post breakdown I-V trace. © 2008 Elsevier Ltd. All rights reserved.

AB - Conductive atomic force microscopy (C-AFM) allows probing local phenomena such as trap assisted tunneling and oxide breakdown, which hamper meeting the high-k device requirements. In this work we present the improvement of Conductive AFM measurements in high vacuum (1e-5 torr) due to improved preservation of tip conductivity. Furthermore, we describe the gate removal process of real MOS devices, enabling standard macroscopic and microscopic measurements on the same gate dielectric. Using this procedure, we are able with C-AFM to locate the BD spots induced by standard macroscopic constant voltage stress. The C-AFM measured local current-voltage (I-V) characteristic of a single BD spot aligns well with the macroscopic post breakdown I-V trace. © 2008 Elsevier Ltd. All rights reserved.

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Nanometer-scale leakage measurements in high vacuum on de-processed high-k capacitors

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