808 nm gaas基大功率激光二极管棒的温度分布及表面涂层降解分析

Siyu Zhang, Shiwei Feng, Xueqin Gong, Z. An, Hongwei Yang, Y. Qiao
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引用次数: 0

摘要

利用红外热像仪、聚焦离子束、高分辨率透射电子显微镜和能量色散x射线能谱技术研究了由47个单激光二极管组成的808 nm gaas基大功率激光二极管棒(ldb)的降解机理。得到了输出面的温度分布,结果表明,在20 A和25 A工作电流下,位于芯片中心的发射极24的输出面温度最高,分别为37.87°C和42.08°C。因此,我们制作了一个发射器24的样本,然后对其进行了详细的研究。该样品表面涂层在成分和厚度上发生了明显的变化和退化,最终导致其输出表面的灾难性光学损伤(COD)。我们推断通过优化ldb的表面涂层可以提高ldb的性能和可靠性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Temperature distribution and facet coating degradation analysis of 808 nm GaAs-based high-power laser diode bars
The degradation mechanism of 808 nm GaAs-based high-power laser diode bars (LDBs) which has 47 single laser diodes is investigated using infrared thermography, focused ion beam, high-resolution transmission electron microscopy, and energy-dispersive X-ray spectroscopy techniques. We obtained the temperature distribution of the output facet and the results indicate that emitter 24, which is located at the center of the bar chip, exhibits the highest facet temperature, that is, 37.87 °C and 42.08 °C at operating currents of 20 A and 25 A, respectively. Thus, we made a sample of emitter 24 that was then studied in detail. The facet coating of this sample changed and degraded visibly in both constituent and thickness, which eventually resulted in the catastrophic optical damage (COD) of its output facet. We deduce that we can improve the performance and reliability of LDBs through optimizing their facet coatings.
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