On-wafer fabrication of cavity mirrors for InGaN-based laser diode grown on Si

Direct bandgap III-V semiconductor lasers grown on silicon (Si) are highly desired for monolithic integration with Si photonics. Fabrication of semiconductor lasers with a Fabry–Pérot cavity usually includes facet cleavage, however, that is not compatible with on-chip photonic integration. Etching a...

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Veröffentlicht in:	Scientific reports 2018-05, Vol.8 (1), p.7922-8, Article 7922
Hauptverfasser:	He, Junlei, Feng, Meixin, Zhong, Yaozong, Wang, Jin, Zhou, Rui, Gao, Hongwei, Zhou, Yu, Sun, Qian, Liu, Jianxun, Huang, Yingnan, Zhang, Shuming, Wang, Huaibing, Ikeda, Masao, Yang, Hui
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Schlagworte:	140/125 142/126 639/301/1019/1020/1093 639/624/1020/1093 Diodes Etching Fabrication Gallium Humanities and Social Sciences Integration Lasers multidisciplinary Recombination Science Science (multidisciplinary)
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creator	He, Junlei Feng, Meixin Zhong, Yaozong Wang, Jin Zhou, Rui Gao, Hongwei Zhou, Yu Sun, Qian Liu, Jianxun Huang, Yingnan Zhang, Shuming Wang, Huaibing Ikeda, Masao Yang, Hui
description	Direct bandgap III-V semiconductor lasers grown on silicon (Si) are highly desired for monolithic integration with Si photonics. Fabrication of semiconductor lasers with a Fabry–Pérot cavity usually includes facet cleavage, however, that is not compatible with on-chip photonic integration. Etching as an alternative approach holds a great advantage in preparing cavity mirrors with no need of breaking wafer into bars. However, gallium nitride (GaN) sidewalls prepared by dry etching often have a large roughness and etching damages, which would cause mirror loss due to optical scattering and carrier injection loss because of surface non-radiative recombination. A wet chemical polishing process of GaN sidewall facets formed by dry etching was studied in detail to remove the etching damages and smooth the vertical sidewalls. The wet chemical polishing technique combined with dry etching was successfully applied to the on-wafer fabrication of cavity mirrors, which enabled the realization of room temperature electrically injected InGaN-based laser diodes grown on Si.
doi_str_mv	10.1038/s41598-018-26305-8
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Fabrication of semiconductor lasers with a Fabry–Pérot cavity usually includes facet cleavage, however, that is not compatible with on-chip photonic integration. Etching as an alternative approach holds a great advantage in preparing cavity mirrors with no need of breaking wafer into bars. However, gallium nitride (GaN) sidewalls prepared by dry etching often have a large roughness and etching damages, which would cause mirror loss due to optical scattering and carrier injection loss because of surface non-radiative recombination. A wet chemical polishing process of GaN sidewall facets formed by dry etching was studied in detail to remove the etching damages and smooth the vertical sidewalls. 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subjects	140/125 142/126 639/301/1019/1020/1093 639/624/1020/1093 Diodes Etching Fabrication Gallium Humanities and Social Sciences Integration Lasers multidisciplinary Recombination Science Science (multidisciplinary)
title	On-wafer fabrication of cavity mirrors for InGaN-based laser diode grown on Si
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