Approaches for higher power in GaAs-based broad area diode lasers

2019 IEEE High Power Diode Lasers and Systems Conference (HPD) Pub Date : 2019-10-01 DOI:10.1109/hpd48113.2019.8938605

S. Arslan, G. Erbert, A. Boni, M. Wilkens, A. Maaßdorf, J. Fricke, A. Ginolas, P. Crump

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引用次数: 4

Abstract

We present here a comparison of design approaches for improved continuous wave electro-optical performance in GaAs-based high power broad area diode lasers emitting at 970 nm. Diode lasers with $90 {\mu } \mathrm {m}$ stripe width based on established asymmetric large optical cavity designs achieve high peak conversion efficiency (68% at 5 W for 3 mm resonator length) but efficiency drops rapidly with power. In spite of halved electrical and thermal resistance, devices with longer resonators (6 mm) operate with only marginally improved efficiency and power (efficiency at 12 W increases from 57 to 59%, peak power increases from 13 to 14 W). In contrast, development in epitaxial design enables strong improvement in power and efficiency at high power. Specifically, recent progress in extreme double and triple asymmetric epitaxial designs have enabled devices with $90 {\mu } \mathrm {m}$ stripe width and 4 mm resonator length to improve their efficiency at 12 W output power from 56% to 66%, with their peak (saturation) power rising from 14 to 19 W.

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高功率gaas基广域二极管激光器的方法

本文介绍了改进970 nm发射gaas基大功率广域二极管激光器连续波电光性能的设计方法的比较。基于已建立的非对称大光学腔设计的90 {\mu} \ maththrm {m}$条纹宽度的二极管激光器实现了很高的峰值转换效率(在3mm谐振腔长度为5 W时为68%)，但效率随着功率的增加而迅速下降。尽管电阻和热阻减半，但具有较长谐振器(6毫米)的器件的工作效率和功率仅略有提高(12w时的效率从57%增加到59%，峰值功率从13增加到14 W)。相比之下，外延设计的发展使高功率下的功率和效率得到了显著提高。具体来说，最近在极端双和三非对称外晶设计方面取得的进展已经使条纹宽度为90 {\mu}} m}$、谐振腔长度为4 mm的器件在12 W输出功率下的效率从56%提高到66%，峰值(饱和)功率从14 W提高到19 W。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 IEEE High Power Diode Lasers and Systems Conference (HPD)

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