在MOVPE中原位刻蚀InP基BH激光结构

Conference Proceedings. 2001 International Conference on Indium Phosphide and Related Materials. 13th IPRM (Cat. No.01CH37198) Pub Date : 2001-05-14 DOI:10.1109/ICIPRM.2001.929142

R. Gessner, A. Guy, E. Veuhoff, B. Borchert, S. Illek, M. Schier, G. Wenger

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引用次数: 1

摘要

采用叔丁基氯(TBCl)在MOVPE体系中刻蚀InP基埋藏异质结构(BH)激光脊。采用原位再生技术将提高工艺良率和可靠性。蚀刻速率与TBCl流量成正比。增加载氢气体的流量会降低蚀刻速率，在更高的温度下可以提高蚀刻速率。良好的表面形貌是必不可少的。这可以在有利于高表面扩散的条件下得到。结果表明，在580 /spl的温度下，无PH/sub 3/ free蚀刻工艺对InP层和GaInAsP层都有最好的效果。Ga含量的增加降低了蚀刻速率，特别是在PH/sub - 3/ free工艺中。在优化的条件下，在TBCl蚀刻过程中形成光滑的{111}平面。这一过程第一次被成功地用于生产BH激光器。器件数据以及可靠性数据与传统非原位蚀刻工艺制备的器件数据具有可比性。

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In-situ etching of InP based BH laser structures in MOVPE

Tertiarybutylchloride (TBCl) was used for etching of InP based buried heterostructure (BH) laser ridges in an MOVPE system. Applying this in-situ technique with subsequent regrowth will increase process yield and reliability. Etch rates are directly proportional to the TBCl flow. Increasing the hydrogen carrier gas flow yields decreased etch rates, these can be increased at higher temperatures. An excellent surface morphology is essential. This can be obtained under conditions favoring a high surface diffusion. It was found that a PH/sub 3/-free etching process at 580 /spl deg/C leads to best results both, for InP and GaInAsP layers. An increasing Ga content decreases the etch rate, especially in a PH/sub 3/-free process. Smooth {111} planes are formed during TBCl etching under optimized conditions. For the first time this process was successfully utilized to produce BH lasers. Device data along with reliability data are comparable with data from devices fabricated by the conventional ex-situ etching process.

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来源期刊

Conference Proceedings. 2001 International Conference on Indium Phosphide and Related Materials. 13th IPRM (Cat. No.01CH37198)

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