密封密封抗氧化分解及其在器件制造中的应用

D. Huffaker, D. Deppe, C. Lei, L. Hodge
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引用次数: 15

摘要

只提供摘要形式。我们提出了一种密封暴露的AlAs层以防止进一步氧化分解的方法。密封胶是通过快速热退火(RTA)形成的,温度为/spl sim/500至600/spl°C,在形成气体时,将AlAs表面短暂暴露在典型的室内环境中。这样形成的表面阻隔层很薄,即使在高温下也无法渗透到扩散的氧气,并且可以热循环。表面层的一个重要特征是它能够完全阻挡并因此屏蔽ala的蒸汽氧化。为了证明其在器件制造中的应用,RTA氧化物被用于掩盖AlAs/GaAs Bragg反射器的某些AlAs层,从而仅在最靠近全外延VCSEL有源区域的AlAs层中实现湿氧化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sealing AlAs against oxidative decomposition and its use in device fabrication
Summary form only given. We present a process that seals an exposed AlAs layer against further oxidative decomposition. The sealant is formed by a rapid thermal anneal (RTA) to a temperature of /spl sim/500 to 600/spl deg/C in forming gas after brief exposure of the AlAs surface to the typical room environment. The surface barrier layer thus formed is thin and impermeable to diffusing oxygen species, even at elevated temperatures, and can be thermally cycled. An important feature of the surface layer is its ability to fully block, and therefore mask, a steam oxidation of AlAs. To demonstrate its application in device fabrication, the RTA oxide is used to mask certain AlAs layers of an AlAs/GaAs Bragg reflector and thefefore to achieve wet oxidation only in the AlAs layers closest to the active region of an all-epitaxial VCSEL.
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