利用气箔旋转概念改善InP基III-V层大面积均匀性

International Conference on Indium Phosphide and Related Materials Pub Date : 1990-04-23 DOI:10.1109/ICIPRM.1990.202997

G. Strauch, D. Schmitz, H. Jurgensen, M. Heyen

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引用次数: 2

摘要

为了增加精密器件生产的可用晶圆面积，从而降低低压金属有机气相外延工艺的制造成本，需要进一步改善厚度和成分均匀性。晶圆旋转的气箔概念被用来实现这些目标。在这种技术中，衬底被放置在漂浮在气体箔(高纯度H/sub / 2/)上的石墨载体上。同样的气流也迫使载体旋转。在单晶片反应器中使用气箔旋转电感生长的InP、GaInAs和GaInAsP层的厚度均匀性均优于+或1.5%。三元层和四元层晶格失配的变化小于2.5*10/sup -4/。在整个晶圆区域(不包括5mm的边缘)，GaInAsP波长变化小于4 nm。

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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Improvement of large area homogeneity of InP based III-V layers by using the gas foil rotation concept

Further improvement of thickness and compositional homogeneity was sought in order to increase the usable wafer area for sophisticated device production and thus reduce the manufacturing costs in low-pressure metalorganic vapor-phase epitaxy processes. The gas-foil concept for wafer rotation was used to achieve these goals. In this technique the substrate is placed on a graphite carrier floating on a gas foil (high-purity H/sub 2/). The same gas flow also forces the carrier to rotate. The thickness uniformities of InP, GaInAs and GaInAsP layers grown with the gas-foil rotation susceptor in a single-wafer reactor were better than +or-1.5%. The variation of lattice mismatch of ternary and quaternary layers was below 2.5*10/sup -4/. The GaInAsP wavelength variation was smaller than 4 nm over the entire wafer area (a rim of 5 mm excluded).<>

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International Conference on Indium Phosphide and Related Materials

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