直接晶圆温度测量蚀刻室诊断和过程控制

Mei H. Sun, C. Gabriel
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引用次数: 3

摘要

众所周知,晶圆温度对等离子体刻蚀性能有重要影响。过程中(峰值)晶圆温度的不稳定性可能与金属后蚀刻残留物、侧壁凹边或倾斜轮廓以及不一致的光刻胶选择性等问题有关。直接的晶圆温度测量可以产生有价值的诊断信息。这些信息可以用来描述过程,也可以用来改进过程控制。本文介绍了两种直接晶圆测量技术,当它们结合使用时,可以成为腔室诊断,工具对工具匹配以及生产环境中过程控制的强大工具。使用热光学系统进行实时、原位晶圆温度测量,以了解工艺参数(如背面He冷却、射频功率和气体流量)对晶圆温度和温度均匀性的影响。然后将这些数据与采用安装在单用途仪器晶圆上的峰值温度指示器阵列的新技术的测量结果相关联。后一种技术是快速腔室资格和日常过程控制的理想选择,而前一种技术可用于更详细的腔室诊断和分析蚀刻过程中的热循环。
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Direct wafer temperature measurements for etch chamber diagnostics and process control
It is well known that wafer temperature has significant impact on plasma etching performance. Instability of (peak) wafer temperatures during process can be linked to such issues as post-metal etch residues, undercut or sloping sidewall profiles and inconsistent photoresist selectivity. Direct wafer temperature measurements can yield valuable diagnostic information. This information can be used to characterize the process as well as to improve process control. This paper presents two direct wafer measurement techniques which when used in combination can be powerful tools for chamber diagnostics, tool to tool matching, as well as process control in a production environment. Real time, in situ wafer temperature measurement using a thermal optical system is used to understand the effect of process parameters such as backside He cooling, RF power and gas flows on wafer temperature and temperature uniformity. This data is then correlated to measurements from a novel technique employing arrays of peak temperature indicators mounted on a single-use-instrumented wafer. The latter technique is ideal for quick chamber qualifications and day to day process control while the former can be used for more detailed chamber diagnostics and analysis of the thermal cycle during the etch process.
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