密封14针蝴蝶封装的光纤耦合锥形放大器，在780纳米处发射3瓦，在850纳米处发射2.5瓦以上

Oceans Pub Date : 2023-06-26 DOI:10.1109/CLEO/Europe-EQEC57999.2023.10232671

H. Thiem, Daniel Brauda, Markus Schütz, B. Globisch, Miroslawa Malach

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引用次数: 0

摘要

波长范围约780 nm和850 nm被广泛用于高分辨率光谱学和量子技术(QT)。例如，铯(Cs)的D2跃迁和铷(Rb)的D2跃迁就在这些波长范围内。[1]，[2]对于高分辨率的紧凑型光谱仪，特别是第二代QT，紧凑和长期稳定的系统是技术突破的先决条件。[3]本文设计了一种具有高输出功率、优异光束特性$(\mathrm{M}^{2} < 2)$和高相干性的14引脚蝴蝶封装、准直输出光束的小型化光纤耦合锥形放大器(mini TA)。据我们所知，这是第一次在这个功率范围内演示光纤耦合TA，在密封封装中具有准直输出光束。

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Fiber-Coupled Tapered Amplifier in a Hermetic 14-Pin Butterfly Package Emitting 3 W at 780 nm and More than 2.5 W at 850 nm

The wavelength range around 780 nm and 850 nm is extensively used for both high resolution spectroscopy and quantum technology (QT). For example, the D2 transition of cesium (Cs) and the D2 transition of rubidium (Rb) lie within these wavelength ranges. [1], [2] For compact spectrometers with high resolution and especially for QT of the second generation, compact and long-term stable systems are a prerequisite for the breakthrough of the technology. [3] In this paper we demonstrate a miniaturized fiber-coupled tapered amplifier (mini TA), which combines high output power, excellent beam properties $(\mathrm{M}^{2} < 2)$ and high coherence in 14-pin butterfly package with collimated output beam. To the best of our knowledge this is the first time demonstration of a fiber-coupled TA in this power range with a collimated output beam in a hermetically sealed package.

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来源期刊

Oceans

CiteScore

3.10

自引率

0.00%

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