Characterization of Mg Diffusion into HfO2/SiO2/Si(100) Stacked Structures and Its Impact on Detect State Densities

Akio OHTA; Daisuke KANME; Hideki MURAKAMI; Seiichiro HIGASHI; Seiichi MIYAZAKI

doi:10.1587/transele.E94.C.717

Special Section on Fundamentals and Applications of Advanced Semiconductor Devices

Characterization of Mg Diffusion into HfO₂/SiO₂/Si(100) Stacked Structures and Its Impact on Detect State Densities

Akio OHTA, Daisuke KANME, Hideki MURAKAMI, Seiichiro HIGASHI, Seiichi MIYAZAKI

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Keywords: high-k gate dielectrics, capping layer, HfO₂, MgO, photoemission measurements

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2011 Volume E94.C Issue 5 Pages 717-723

DOI https://doi.org/10.1587/transele.E94.C.717

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Abstract

A stacked structure consisting of ∼1nm-thick MgO and 4nm-thick HfO₂ was formed on thermally grown SiO₂/Si(100) by MOCVD using dipivaloymethanato (DPM) precursors, and the influences of N₂ anneal on interfacial reaction and defect state density in this stacked structure were examined. The chemical bonding features of Mg atom were evaluated by using an Auger parameter independently of positive charge-up during XPS measurements. With Mg incorporation into HfO₂, a slight decrease in the oxidation number of Mg was detectable. The result suggests that Mg atoms are incorporated preferentially near oxygen vacancies in the HfO₂, which can be responsible for a reduction of the flat band voltage shifts observed from C-V characteristics.

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