Fabrication and characterization of broadband superluminescent diodes for 2 μm wavelength

SPIE OPTO Pub Date : 2016-03-16 DOI:10.1117/12.2209720
N. Zia, J. Viheriälä, R. Koskinen, M. Koskinen, S. Suomalainen, M. Guina
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引用次数: 4

Abstract

Single-mode superluminescent diodes operating at 2 μm wavelength are reported. The structures are based on GaSb material systems and were fabricated by molecular beam epitaxy. Several waveguide designs have been implemented. A continuous-wave output power higher than 35 mW is demonstrated for a spectrum centered at around 1.92 μm. We show that the maximum output power of the devices is strongly linked to spectrum width. Device having low output power exhibit a wide spectrum with a full-width half-maximum (FWHM) as large as 209 nm, while devices with highest output power exhibit a narrower spectrum with about 61 nm FWHM.
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波长为2 μm的宽带超发光二极管的制备与表征
报道了工作波长为2 μm的单模超发光二极管。该结构基于GaSb材料体系,采用分子束外延技术制备。已经实现了几种波导设计。以1.92 μm为中心的连续波输出功率高于35 mW。我们表明,器件的最大输出功率与频谱宽度密切相关。输出功率低的器件具有宽光谱,全宽半最大值(FWHM)可达209 nm,而输出功率高的器件具有窄光谱,FWHM约为61 nm。
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