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首页> 外文会议>Recombination lifetime measurements in silicon >APPLICATION AND COMPARISON OF SPV AND μPCD FOR IRON MEASUREMENT IN SILICON WAFER MANUFACTURING
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APPLICATION AND COMPARISON OF SPV AND μPCD FOR IRON MEASUREMENT IN SILICON WAFER MANUFACTURING

机译:SPV和μPCD在硅晶片制造中铁含量测量中的应用与比较

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摘要

Minority carrier lifetime tools μ-PCD and SPV diffusion length are used in process monitoring in silicon wafer manufacturing for metal contamination control. In p-type silicon, both lifetime tools had been correlated with DLTS so as to be able to measure [Fe] concentration. In comparison of these two methods, a good correlation was obtained in a large range with extrapolation to the upper le10/cm~3 level using Czochralski (CZ) silicon samples. In general, SPV resulted in a higher [Fe] than μ-PCD methods. At lower le10/cm~3 level, the boron and oxygen concentrations significantly limit the [Fe] detection capability of μ-PCD, but less significantly on that of SPV.
机译:少数载流子寿命工具μ-PCD和SPV扩散长度用于硅晶片制造中的过程监控,以控制金属污染。在p型硅中,两种寿命工具都与DLTS相关联,以便能够测量[Fe]浓度。通过比较这两种方法,使用切克劳斯基(CZ)硅样品在大范围内外推到le10 / cm〜3的较高水平都获得了良好的相关性。通常,SPV产生的[Fe]高于μ-PCD方法。在较低的le10 / cm〜3水平下,硼和氧的浓度显着限制了μ-PCD的[Fe]检测能力,但对SPV的检测能力却没有那么显着。

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