Thermal behavior of residual damage in low-dose implanted silicon after high-temperature rapid thermal annealing

2013 13th International Workshop on Junction Technology (IWJT) Pub Date : 2013-06-06 DOI:10.1109/IWJT.2013.6644503

A. Sagara, S. Shibata

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Abstract

Along with the development of the Si semiconductor industry, numerous studies have been carried out on the defects that remain after ion-implantation processes [1]. For example, in the case of high-dose (~1015 cm-2) implantation, dislocation loops can be created even after annealing. These defects are typically evaluated by transmission electron microscopy (TEM) and have been confirmed as a reason for junction leakage [2][3]. Even in low-dose (<; 1013 cm-2) implantation, some intrinsic point defects remain at relatively low annealing temperatures (<; 700 C). These defects have been conventionally analyzed and investigated by optical and electrical characterization techniques, such as photoluminescence (PL) and deep transient level spectroscopy (DLTS) [4]-[6]. In contrast, residual damage in low-dose implanted and high-temperature annealed Si has not been detected and reported. Therefore, it is believed that there is no damage remains in this condition, and, if exists, it has no influence on device performance. Little attention has been paid to the defects that remain after low-dose implantation processes.

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低剂量注入硅高温快速热退火后残余损伤的热行为

随着硅半导体工业的发展，人们对离子注入后残留的缺陷进行了大量的研究[1]。例如，在高剂量(~1015 cm-2)注入的情况下，即使退火后也可以产生位错环。这些缺陷通常通过透射电子显微镜(TEM)进行评估，并已被证实是结漏的原因[2][3]。即使在低剂量(<;在相对较低的退火温度下(<;这些缺陷通常通过光学和电学表征技术进行分析和研究，如光致发光(PL)和深瞬态能级光谱(DLTS)[4]-[6]。相比之下，低剂量注入和高温退火Si的残余损伤尚未被检测和报道。因此，认为在这种状态下不存在任何损坏，即使存在，也不会对设备性能产生影响。很少有人注意到低剂量植入后仍然存在的缺陷。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 13th International Workshop on Junction Technology (IWJT)

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