Conductivity of Hafnium Oxide Films Obtained by Electron-Beam Sputtering

IF 0.4 4区 物理与天体物理 Q4 PHYSICS, MULTIDISCIPLINARY
I. D Kuchumov, M. N Martyshov, D. M Zhigunov, A. S Ilyin, A. V Pavlikov, P. A Forsh, P. K Kashkarov
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Abstract

Hafnium oxide films HfO\({}_{x}\) with a thickness of about 40 nm were obtained by electron beam sputtering at different oxygen flow rates in the chamber. The electrophysical properties of the films were studied in air and in a vacuum. It has been shown that the temperature dependences of film conductivity, measured in a vacuum in the temperature range from 20 to 180\({}^{\circ}\)C, have an activation character with an activation energy of 0.82\(\pm\) 0.02 eV. It is assumed that in the resulting films, charge transfer is determined by the activation of electrons into the conduction band from the donor level associated with oxygen vacancies. It was found that the conductivity of the films in air changes greatly with varying the oxygen flow, while in a vacuum, the conductivity is practically independent of the oxygen flow. This indicates significant differences in the surface properties of the films obtained at different oxygen flows in the chamber during the deposition process.

Abstract Image

电子束溅射法获得的氧化铪薄膜的导电性
摘要 通过电子束溅射,在腔室中以不同的氧气流速获得了厚度约为 40 nm 的氧化铪薄膜 HfO ({}_{x}/)。研究了薄膜在空气和真空中的电物理特性。研究表明,在 20 到 180 \({}^{\circ}\) C 的真空温度范围内测量的薄膜电导率的温度依赖性具有活化特性,其活化能为 0.82 \(\pm\) 0.02 eV。据推测,在生成的薄膜中,电荷转移是由电子从与氧空位相关的供体水平激活进入传导带决定的。研究发现,薄膜在空气中的电导率随氧气流量的变化而发生很大变化,而在真空中,电导率实际上与氧气流量无关。这表明在沉积过程中,在腔室中不同氧流条件下获得的薄膜表面特性存在显著差异。
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来源期刊
Moscow University Physics Bulletin
Moscow University Physics Bulletin PHYSICS, MULTIDISCIPLINARY-
CiteScore
0.70
自引率
0.00%
发文量
129
审稿时长
6-12 weeks
期刊介绍: Moscow University Physics Bulletin publishes original papers (reviews, articles, and brief communications) in the following fields of experimental and theoretical physics: theoretical and mathematical physics; physics of nuclei and elementary particles; radiophysics, electronics, acoustics; optics and spectroscopy; laser physics; condensed matter physics; chemical physics, physical kinetics, and plasma physics; biophysics and medical physics; astronomy, astrophysics, and cosmology; physics of the Earth’s, atmosphere, and hydrosphere.
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