一种确定MOS结构中有效接触电位差横向分布的光电方法

Proceedings of the 21st IEEE Instrumentation and Measurement Technology Conference (IEEE Cat. No.04CH37510) Pub Date : 2004-05-18 DOI:10.1109/IMTC.2004.1351114

A. Kudła, L. Borowicz, H. Przewlocki

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引用次数: 0

摘要

测定MOS结构中接触电位差最准确的方法是光电法。这种方法的一些重要限制是由紫外线光源引起的。应用倍频氩激光器可以获得理论直径小于微米的高功率密度光斑。这样既可以研究光厚栅结构，又可以研究MOS结构参数的横向分布。对MOS结构接触电位差横向分布的测量表明，单个结构上的接触电位差值存在显著差异。最小值在正方形结构的角落，边缘的中间较高，结构的中心最高。这些差异的来源可能是机械应力或金属栅下化学扩散条件的不同。

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A photoelectric method to determine lateral distribution of the effective contact potential difference in MOS structures

The most accurate method of determination of contact potential difference in MOS structure is photoelectrical method. Some important limitations of this method are caused by the UV light source. Application of argon laser with frequency doubler allows getting high power density light spot with theoretical diameter below micrometer. This way both structures with optically thick gate and MOS structure parameters lateral distribution could be investigated. Measurements of contact potential difference lateral distribution on MOS structure show significant difference in values on single structure. The lowest values are in the corner of squared structure, the higher on the middle of the edge and the highest at the structure center. The origin of these differences could be mechanical stress or different conditions for chemical diffusion under metallic gate.

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Proceedings of the 21st IEEE Instrumentation and Measurement Technology Conference (IEEE Cat. No.04CH37510)

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