Analyses on thin film between contacts by using third harmonic distortion

Proceedings of the Forth-Seventh IEEE Holm Conference on Electrical Contacts (IEEE Cat. No.01CH37192) Pub Date : 2001-09-10 DOI:10.1109/HOLM.2001.953209

E. Takano

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引用次数: 5

Abstract

This paper describes a graphic method to evaluate the effective physical parameters (potential barrier height and film thickness) of a thin insulating film for the tunnel current. The theoretical third harmonic distortion (THD) of the terminal contact current due to the tunnel effect is expressed as a function of the tunnel resistivity and illustrated in a graph, which makes it possible to determine the physical parameters. Experimental results, using Au vs. Au 0.5%Co alloy contacts at very small contact loads (<1 mN), show that the THD and the contact resistance are very high when the contacts are contaminated with an organic vapor from practical soldering. By making use of these results, the effective potential barrier height for electron emission from the contact metal into the organic film is evaluated at voltages of less than 0.3 eV and film thicknesses of 0.5-0.7 nm. It is possible to estimate the large THD using the voltage-tunnel resistance characteristics without measuring the third harmonic. The electric current due to the field emission through the film is theoretically evaluated to be much less than the tunnel current at low applied voltages.

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用三次谐波畸变分析薄膜接触面

本文描述了一种计算隧道电流的有效物理参数(势垒高度和薄膜厚度)的图解方法。由于隧道效应，终端接触电流的理论三次谐波失真(THD)表示为隧道电阻率的函数，并以图形表示，从而可以确定物理参数。在很小的接触负荷(<1 mN)下，使用Au和Au 0.5%Co合金触点的实验结果表明，当触点被实际焊接产生的有机蒸汽污染时，触点的THD和接触电阻非常高。利用这些结果，在小于0.3 eV的电压和0.5-0.7 nm的薄膜厚度下，评估了接触金属向有机薄膜发射电子的有效势垒高度。在不测量三次谐波的情况下，利用电压隧道电阻特性估计大THD是可能的。从理论上估计，在低外加电压下，通过薄膜的场发射电流要比隧道电流小得多。

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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Proceedings of the Forth-Seventh IEEE Holm Conference on Electrical Contacts (IEEE Cat. No.01CH37192)

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