使用化学辅助离子束蚀刻和简单的光刻胶掩膜制备干蚀刻面的InGaAsP/InP脊波导激光器

A. Paraskevopoulos, H. Hensel, W. Molzow, K. Janiak, E. Suryaputra, H. Roehle, P. Wolfram, W. Ebert
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引用次数: 2

摘要

干蚀刻刻面在半导体激光二极管制造中仍然是一个非常有吸引力的任务,因为它们可以潜在地导致晶圆上器件的制造,包括初步测试,从而允许大幅降低成本。化学辅助离子束蚀刻(CAIBE)技术通常应用于这一目标,因为它允许垂直侧壁蚀刻结合高蚀刻速率。然而,虽然在GaAlAs/GaAs的基础上取得了一些相当令人信服的结果(Unger等人,1993),但对于InGaAsP/InP激光器件而言,情况似乎并非如此。发表的结果是在低温蚀刻(5/spl℃)下以IBr/sub -3 /作为化学成分(Eisele等,1996),或在更高的温度(250-300/spl℃)下以Cl/sub - 2/使用多层掩膜或厚(700 nm) SiO/sub - 2/ (Youtsey等,1994;Dzioba等人,1993;Tsang et al., 1999)。在本文中,据我们所知,我们首次使用简单的光刻胶掩膜,在光刻曝光后不进行任何额外处理的情况下,对脊波导(RW)激光器进行干蚀刻激光切面的结果。我们证明了所制备的器件与具有劈裂面的激光器具有相同的特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fabrication of InGaAsP/InP ridge waveguide lasers with dry etched facets using chemically assisted ion beam etching and a simple photoresist mask
Dry etched facets remain a very attractive task in the semiconductor laser diode fabrication, as they can potentially lead to on-wafer device fabrication including preliminary testing, allowing thus a substantial cost reduction. Chemically assisted ion beam etching (CAIBE) technique is commonly applied to this aim, as it allows for vertical sidewall etching combined with high etch rates. However, while on the GaAlAs/GaAs basis some quite convincing results were achieved (Unger et al., 1993), this seems not to be the case for the InGaAsP/InP laser devices to the same extent. Published results were obtained either at low temperature etching (5/spl deg/C) with IBr/sub 3/ as a chemical component (Eisele et al., 1996), or at higher temperatures (250-300/spl deg/C) with Cl/sub 2/ using multilayer masks or thick (700 nm) SiO/sub 2/ (Youtsey et al., 1994; Dzioba et al., 1993; Tsang et al., 1999). In this paper we present, to our knowledge for the first time, results on ridge waveguide (RW) lasers with dry etched laser facets using a simple photoresist mask, without any additional treatment after the lithographic exposure. We demonstrate that the fabricated devices show identical characteristics to those of lasers with cleaved facets.
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