Infrared emittance measurements at NIST

2005 13th International Conference on Advanced Thermal Processing of Semiconductors Pub Date : 2005-10-05 DOI:10.1109/RTP.2005.1613711

L. Hanssen, B. Tsai, S. Mekhontsev

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Abstract

A new capability for the measurement of the temperature-dependent emittance of specular samples in the near infrared spectral region has been developed in NIST's infrared spectrophotometry laboratory to provide emittance measurements and standards for a broad range of applications including rapid thermal processing (RTP). Our approach employs the indirect measurement of reflectance and transmittance measurements to obtain emittance. A vacuum goniometer system controls the sample environment and measurement geometry. The main system, including the sample, is contained in a vacuum chamber that enables characterization of materials otherwise susceptible to oxidation. Details of the lasers, sources, detectors, and other optics in the system are given. The system has initially been used to characterize the spectral emittance (by reflectance) of a variety of semiconductor wafer samples including bare silicon and silicon substrates coated with SiO 2, Si3N4, and polysilicon films. The spectral range for these measurements is from 600 nm to 1100 nm, where Si is opaque; the temperature range is ambient to 800degC. The results are analyzed and compared with those predicted by several models from the literature

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NIST的红外发射度测量

NIST的红外分光光度测定实验室开发了一种测量近红外光谱区域反射样品的温度相关发射度的新能力，为包括快速热处理(RTP)在内的广泛应用提供发射度测量和标准。我们的方法采用反射率和透射率测量的间接测量来获得发射度。真空测角仪系统控制样品环境和测量几何。主系统，包括样品，包含在一个真空室，使表征材料，否则容易氧化。详细介绍了系统中的激光器、光源、探测器和其他光学器件。该系统最初被用于表征各种半导体晶圆样品的光谱发射度(通过反射率)，包括裸硅和涂有sio2, Si3N4和多晶硅薄膜的硅衬底。这些测量的光谱范围从600纳米到1100纳米，其中Si是不透明的;温度范围为室温至800摄氏度。对结果进行了分析，并与文献中几种模型的预测结果进行了比较

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2005 13th International Conference on Advanced Thermal Processing of Semiconductors

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