Fundamental Transverse Mode Selection (TMS#0) of Broad Area Semiconductor Lasers with Integrated Twice-Retracted 4f Set-Up and Film-Waveguide Lens

Q3 Engineering

Advances in Optoelectronics Pub Date : 2017-12-14 DOI:10.1155/2017/5283850

H. Fouckhardt, A. Kleinschmidt, J. Strassner, Christoph Doering

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引用次数: 2

Abstract

Previously we focused on fundamental transverse mode selection (TMS#0) of broad area semiconductor lasers (BALs) with two-arm folded integrated resonators for Fourier-optical spatial frequency filtering. The resonator had a round-trip length of 4f, where f is the focal length of the Fourier-transform element (FTE), that is, a cylindrical mirror in-between the orthogonal resonator branches. This 4f set-up can be called “retracted once” due to the reflective filter after 2f; that is, the 2f path was used forwards and backwards. Now the branches are retracted once more resulting in a compact 1f long linear resonator (called “retracted twice”) with a round-trip length of 2f. One facet accommodates the filter, while the other houses the FTE, now incorporating a film-waveguide lens. The BAL facet with the filter represents both the Fourier-transform plane (after 2f, i.e., one round-trip) as well as the image plane (after 4f, two round-trips). Thus filtering is performed even after 4f, not just after 2f. Experimental results reveal good fundamental TMS for pump currents up to 20% above threshold and a one-dimensional beam quality parameter = 1.47. The BALs are made from AlGaInAsSb, but the concept can equally well be employed for BALs of any material system.

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集成两次回缩4f和薄膜波导透镜的宽面积半导体激光器的基本横模选择（TMS#0）

在此之前，我们主要研究了用于傅里叶光学空间频率滤波的具有双臂折叠集成谐振器的广域半导体激光器的基本横向模式选择(tms# 0)。谐振腔的往返长度为4f，其中f为傅里叶变换元件(FTE)的焦距，即在正交谐振腔分支之间有一个圆柱形反射镜。由于2f后的反射滤光片，这种4f设置可以称为“缩回一次”;也就是说，2f路径被向前和向后使用。现在分支再次缩回，产生一个紧凑的1f长线性谐振器(称为“缩回两次”)，往返长度为2f。一面容纳过滤器，而另一面容纳FTE，现在合并了一个薄膜波导透镜。带滤波器的BAL面既表示傅里叶变换平面(经过2f，即一次往返)，也表示图像平面(经过4f，两次往返)。因此，过滤甚至在4f之后执行，而不仅仅是在2f之后。实验结果表明，当泵浦电流高于阈值20%，一维光束质量参数= 1.47时，基本TMS良好。bal是由AlGaInAsSb制成的，但这个概念同样可以很好地用于任何材料系统的bal。

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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来源期刊

Advances in Optoelectronics ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

1.30

自引率

0.00%

发文量

期刊介绍： Advances in OptoElectronics is a peer-reviewed, open access journal that publishes original research articles as well as review articles in all areas of optoelectronics.