LiAlxB1−x薄膜的电学和光学性质

Applications of Surface Science Pub Date : 1985-05-01 DOI:10.1016/0378-5963(85)90215-6

Hiroshi Kezuka, Makio Akimoto, Yotaro Taguchi, Kokuya Iwamura, Tomomo Masaki

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引用次数: 1

摘要

用夹层蒸发法测定了350℃下沉积的LiAlxB1−x薄膜的电学和光学性能。这些薄膜是金属的，在室温下电阻率为(1-4)× 105欧姆厘米。此外，我们还开发了一种独特的方法。命名为布鲁斯特角法(BAM)，用于获得LiAlxB1−x薄膜的光学常数。在该方法中，利用He氖激光束在薄膜表面以任意入射角测量反射系数。光学常数由反射系数|RB|min最小值处的布鲁斯特角φB计算。对于典型的LiAlxB1−x薄膜，其光学常数为n = 1.42−j0.31，复介电常数为ε = 1.94−j0.87。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The electrical and optical properties of LiAlxB1−x thin films

The electrical and optical properties of LiAl_xB_1−x thin films deposited at 350°C by the Sandwich-Type Evaporation Method are measured. These films are metallic with a resistivity of (1–4) × 10⁵ ohm cm at room temperature. In addition, we have developed a unique method. named the Brewster Angle Method (BAM), for obtaining the optical constants of thin films for LiAl_xB_1−x. In this method reflection coefficients are measured on the surface of thin films at any angle of incidence using a HeNe laser beam. The optical constants are calculated from the Brewster angle, φ_B, at the minimum value of reflection coefficient $| R_{B} |_{min}$ . For a typical LiAl_xB_1−x film the optical constants are $n = 1.42 − j 0.31$ and the complex dielectric constants are $ϵ = 1.94 − j 0.87$ .

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