基于电导的RTP系统的晶圆温度测量

2008 16th IEEE International Conference on Advanced Thermal Processing of Semiconductors Pub Date : 2008-12-02 DOI:10.1109/RTP.2008.4690566

E. Granneman, X. Pagès, K. Vanormelingen, P. Vermont

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引用次数: 0

摘要

在基于传导的RTP系统中，加热依赖于通过晶圆片和周围腔壁之间的薄气体层的能量传导。在大多数这类系统中，气流是用来控制加热环境的。结果表明，系统中的压降是晶圆温度的直接度量。这个原理被用来确定Levitor系统中的晶圆温度。使用这种方法，可以在200-1100°C范围内进行温度测量。稳态(即长处理时间)下的绝对精度和可重复性分别为4°C和1.5°C (1σ)。时间分辨率以毫秒为单位。详细讨论了在短退火过程中影响测量的瞬态现象，并给出了纠正这种影响的方法。

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Wafer temperature measurement in conduction-based RTP systems

In conduction-based RTP systems the heating relies on the conduction of energy through a thin gas layer of gas between the wafer and the surrounding chamber walls. In most of these types of systems a gas flow is used to control the heating ambient. It turns out that the pressure drop in the system is a direct measure of the wafer temperature. This principle is used to determine the wafer temperature in the Levitor system. With this method, temperature measurements can be carried out in the range 200–1100°C. The absolute accuracy and repeatability in steady state (i.e. long processing times) is 4°C and 1.5°C (1σ), respectively. The time resolution is in the ms range. Transient phenomena that influence the measurements in short anneal processes are discussed in detail, and procedures are given to correct for such effects.

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2008 16th IEEE International Conference on Advanced Thermal Processing of Semiconductors

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