利用光学二次谐波产生表征SOI材料

Y. Gu, T. Vu, G. Li
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引用次数: 3

摘要

虽然SOI晶圆制造工艺(如SIMOX和BESOI)已经开发出来,但生产具有极薄顶层硅层的SOI晶圆仍然是一个挑战,这些硅层厚度均匀,缺陷少,晶体质量高,并且在电气性能上与大块硅兼容。这些对SOI晶圆的严格要求激发了开发表征技术的平行努力,以开始SOI晶圆的鉴定,因为由于SOI中埋藏的氧化层的存在而引起的复杂性,传统的表征技术往往被证明是不够的。因此,出现了新的方法来满足这些需要。在这里,我们报告了使用光学二次谐波产生(SHG)方法来表征SOI晶圆质量。这种技术是非破坏性的,实时的,非常敏感和通用的。它可以用来解决许多SOI晶圆问题,如硅膜均匀性、晶圆键合引起的机械应力、薄膜中的掺杂物和缺陷密度以及埋地氧化层界面质量。将该方法应用于BESOI和SIMOX晶圆的研究中,我们观察到不同的SHG信号和信号随晶圆在不同加工条件下的变化。这些结果表明,使用SHG技术可以有效地探测SOI晶圆的质量。
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SOI material characterization using optical second harmonic generation
While SOI wafer manufacturing processes such as SIMOX and BESOI have been developed, it remains a challenge to produce SOI wafers with extremely thin top silicon layers that are uniform in thickness, low in defects, high in crystalline quality, and compatible to bulk silicon in electrical performance. These stringent requirements on SOI wafers have stimulated a parallel effort to develop characterization techniques for starting SOI wafer qualification, as conventional characterization techniques often prove to be inadequate as a result of complications arising from the presence of the buried oxide layer in SOI. New methods therefore have emerged to answer the needs. Here we report the use of optical second harmonic generation (SHG) method for the characterization of SOI wafer quality. This technique is non-destructive, real time, very sensitive and versatile. It can be used to address a number of SOI wafer issues such as silicon film uniformity, wafer bonding induced mechanical stress, dopant and defect density in the thin film, and buried oxide layer interfacial quality. Applying this method to the investigation of BESOI and SIMOX wafers, we have observed distinctive SHG signals and signal changes as the wafers are subjected to different processing conditions. These results indicate that the quality of the SOI wafers can in fact be probed effectively using the SHG technique.
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