基于混合干涉滤光片的1.8µm多波长掺铥光纤激光器

IF 6.7 3区 工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC International Journal of Optomechatronics Pub Date : 2016-09-09 DOI:10.1080/15599612.2016.1230914
He Wei, Zhu Lianqing, Dong Mingli, Luo Fei
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引用次数: 10

摘要

提出了一种基于混合滤波器的1.8µm可调谐掺铥光纤激光器。在设计的环形腔光纤激光器中,滤波器由一个萨格纳克环和一个双通马赫-曾德尔滤波器组成。实验中,激光阈值为155 mW,在22.5 nm范围内,最小调谐间隔为2.1 nm,可实现连续可调谐且稳定的单波长激光器。当获得1858 nm激光器时,在室温下,20分钟内峰值功率波动小于0.83 dB。通过调节偏振控制器,可同时获得稳定的双波长激光器,在室温下扫描时间为20分钟,峰值功率位移小于1.24 dB。通过改变偏振态,获得稳定的三波长激光,且功率波动小于1.95 nm。在实验中,激光器的3db线宽小于0.4 nm。
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A 1.8-µm multiwavelength thulium-doped fiber laser based on a hybrid interference filter
ABSTRACT A 1.8-µm tunable multiwavelength thulium-doped fiber laser based on a hybrid filter is proposed. In the designed ring-cavity fiber laser, the filter consists of one Sagnac loop and one dual-pass Mach–Zehnder filter. In the experiment, the lasing threshold is 155 mW, and a continuously tunable and stable single-wavelength laser could be realized with a minimum tuning interval of 2.1 nm within a scope of 22.5 nm. When an 1858-nm laser is obtained, the peak power fluctuation is less than 0.83 dB within 20 minutes at room temperature. By adjusting the polarization controller, stable dual-wavelength lasers are simultaneously achieved, and the peak power shift is less than 1.24 dB within a scan time of 20 minutes at room temperature. By changing the polarization state, stable triple-wavelength lasing is obtained, and the power fluctuation is less than 1.95 nm. In the experiment, the 3-dB linewidth of the laser is less than 0.4 nm.
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来源期刊
International Journal of Optomechatronics
International Journal of Optomechatronics 工程技术-工程:电子与电气
CiteScore
9.30
自引率
0.00%
发文量
3
审稿时长
3 months
期刊介绍: International Journal of Optomechatronics publishes the latest results of multidisciplinary research at the crossroads between optics, mechanics, fluidics and electronics. Topics you can submit include, but are not limited to: -Adaptive optics- Optomechanics- Machine vision, tracking and control- Image-based micro-/nano- manipulation- Control engineering for optomechatronics- Optical metrology- Optical sensors and light-based actuators- Optomechatronics for astronomy and space applications- Optical-based inspection and fault diagnosis- Micro-/nano- optomechanical systems (MOEMS)- Optofluidics- Optical assembly and packaging- Optical and vision-based manufacturing, processes, monitoring, and control- Optomechatronics systems in bio- and medical technologies (such as optical coherence tomography (OCT) systems or endoscopes and optical based medical instruments)
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