Michio Tajima, Shuichi Samata, S. Nakagawa, Hiroki Ishigaki, Noriyuki Ishihara
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引用次数: 0
摘要
我们扩展了电子辐照后光致发光方法的适用范围,用于量化硅晶体中的低浓度 C 杂质。G 线与本征发射的强度比以参比样品的比值归一化后作为 C 浓度的指标。对于电阻率高于 50 Ω-cm(n 型)和高于 5 kΩ-cm(p 型)的 Czochralski 生长晶体,已经建立了校准曲线。我们的研究表明,在 O 浓度为 1-6×1017 cm-3 的 n 型样品中,该方法的电阻率范围可扩展至 30 Ω-cm。通过使用 C 浓度与 G 线强度比之间的理论关系,并以 FZ 参考样品的比率归一化,实现了对浮区(FZ)晶体的扩展。关于向导电 p 型掺 B 样品的扩展,发现与 B 有关的辐射诱导缺陷的形成是一个障碍。
Extension of the scope of the photoluminescence method after electron irradiation for quantifying low-level carbon in silicon
We have extended the applicability of the photoluminescence method after electron irradiation for quantifying low-level C impurities in Si crystals. The intensity ratio of the G-line to the intrinsic emission normalized by the ratio of the reference sample is used as an index of the C concentration. The calibration curves have already been established for Czochralski-grown crystals with resistivity higher than 50 Ω·cm (n-type) and higher than 5 kΩ·cm (p-type). We showed that the method was extendable to the resistivity range down to 30 Ω·cm in n-type samples with the O concentration in the range 1-6×1017 cm-3. The extension to float-zone (FZ) crystals was realized by using the theoretical relationship between the C concentration and the G-line intensity ratio normalized by the ratio of the FZ reference sample. Regarding the extension to conductive p-type B-doped samples, the formation of B-related radiation-induced defects was found to be an obstacle.
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