采用碳化钽铝作为无源调制器的自激调q光纤激光器

IF 1.2 4区物理与天体物理 Q4 OPTICS

Laser Physics Pub Date : 2023-10-16 DOI:10.1088/1555-6611/ad00a8

S A Anuar, M F A Rahman, A M M Nasir, A A Latiff, M F M Rusdi, S W Harun

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引用次数: 0

摘要

摘要将基于钽铝碳化物(ta2alc) MAX相膜的无源调制器嵌入聚乙烯醇中，实现了工作在1563 nm的自激调q掺铒光纤激光器。该调制器作为可饱和吸收剂(SA)，建立了9%的调制深度和0.3 MW cm−2的饱和强度。在集成薄膜SA后，获得了稳定的调q光纤激光器，在24.9-59.7 mW的泵浦功率范围内，以45.1 kHz的重复频率产生最小宽度为7.6µs的脉冲。相应的最大平均输出功率为1.6 mW，最大脉冲能量为36.2 nJ，峰值功率为4.7 mW。射频基谱表现出良好的信噪比为61 dB，表明脉冲信号质量良好。ta2alcmax相膜调q激光器的演示可能为材料加工等科学应用开辟了有希望的可能性。

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Self-induced Q-switched fiber laser using tantalum aluminum carbide as a passive modulator

Abstract A self-induced Q-switched erbium-doped fiber laser operating at 1563 nm was achieved by integrating a passive modulator based on tantalum aluminum carbide (Ta 2 AlC) MAX phase film embedded into polyynyl alcohol. The modulator, serving as a saturable absorber (SA), established a modulation depth of 9% and a saturation intensity of 0.3 MW cm −2 . Upon integration of the film SA, a stable Q-switched fiber laser was obtained, generating pulses with a minimum width of 7.6 µ s at a repetition rate of 45.1 kHz, within a pump power range of 24.9–59.7 mW. The corresponding maximum average output power, maximum pulse energy, and highest peak power were determined at 1.6 mW, 36.2 nJ, and 4.7 mW, respectively. The RF fundamental spectrum exhibited a good signal-to-noise ratio of 61 dB, indicating excellent pulse signal quality. This demonstration of Ta 2 AlC MAX phase film Q-switched laser may open promising possibilities for scientific applications such as material processing.

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来源期刊

Laser Physics 物理-光学

CiteScore

2.60

自引率

8.30%

发文量

127

审稿时长

2.2 months

期刊介绍： Laser Physics offers a comprehensive view of theoretical and experimental laser research and applications. Articles cover every aspect of modern laser physics and quantum electronics, emphasizing physical effects in various media (solid, gaseous, liquid) leading to the generation of laser radiation; peculiarities of propagation of laser radiation; problems involving impact of laser radiation on various substances and the emerging physical effects, including coherent ones; the applied use of lasers and laser spectroscopy; the processing and storage of information; and more. The full list of subject areas covered is as follows: -physics of lasers- fibre optics and fibre lasers- quantum optics and quantum information science- ultrafast optics and strong-field physics- nonlinear optics- physics of cold trapped atoms- laser methods in chemistry, biology, medicine and ecology- laser spectroscopy- novel laser materials and lasers- optics of nanomaterials- interaction of laser radiation with matter- laser interaction with solids- photonics