氮对1.3µm GaInNAs量子阱激光器激光特性的影响

N. A. Abdul Manaf, M. Alias, S. Mitani, F. Maskuriy
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摘要

本文对1.3µm GaInNAs量子阱激光器的激光特性进行了全面的研究。我们在N=1.0≤x≤2.0的GaInNAs QW中改变了氮(N)组成。高N含量可显著提高激光波长、发射效率和输出功率。随着N组分的增大,发射波长呈线性红移。如前所述,GaInNAs的带隙是通过调节III族(Ga, In)或V族(N, As)材料的比例来控制的。随着N的增大,带隙减小,发射波长增大。红移比平均为92.49 nm / N %。随着N的增加,发光强度降低,这是由于高N掺入导致晶体质量恶化。我们认为,GaInNAs量子阱的光学质量取决于N的组成和量子阱中N的总数。量子阱与周围基体之间的应变分布对GaInNAs量子阱的光学质量有重要影响。然而,过多的N元素会导致均匀性、应变波动和界面粗糙度等结构品质下降,从而降低阈值电流,增加外部微分量子效率。对设备性能的进一步比较将进一步报告。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of Nitrogen on the lasing characteristic of 1.3 µm GaInNAs quantum well lasers
A comprehensive study has been done to investigate the lasing characteristic of 1.3 µm GaInNAs quantum well (QW) lasers. We have varied the Nitrogen (N) compositions in GaInNAs QW with N=1.0≤x≤2.0. Significant improvement of lasing wavelength, emission efficiency and output power were demonstrated with higher N compositions. The emissions wavelength red shifted linearly when the N compositions enlarge. As formerly known, the band gap of GaInNAs is controlled by adjusting the ratio of group III (Ga, In) or group V (N, As) materials. As the N increased, the band gap will reduce and the emission wavelength increased.The average ratio of the red-shifted is 92.49 nm per N percentage. The PL intensity seems to reduce with higher N which due to the deteriorates crystal quality at higher N incorporation. We believed that that the optical quality of the GaInNAs QW depends on N compositions and total number of N incorporated in the QW. The strain profile between QW and the surrounding matrix has a major effect on the optical quality of GaInNAs QW. However the structural qualities such as homogeneity, strain fluctuation and interface roughness will degrade with too much N composition, hence reduce the threshold current, and increased the external differential quantum efficiency. Further comparisons on the devices performance will be report further.
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