Mode-Dependent Loss Equalized Few-Mode Fiber Photonic Lantern

IF 2.1 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Yingxuan Li;Senyu Zhang;Zhiyong Zhao;Jing Liu;Zhuyixiao Liu;Ming Tang
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引用次数: 0

Abstract

We propose and fabricate an unconventional photonic lantern that is not only able to achieve mode multiplexing and demultiplexing, but also has the functionality of mode-dependent loss equalization. In the process of fusion splicing between the tail fiber of photonic lantern and the few-mode fiber, by controlling the fusion splicing parameters, a refractive index (RI) modified waveguide is formed at the fusion splicing region, through which the fundamental mode will have higher attenuation than the higher-order modes, which enables us to control the attenuation of different modes, so that we can customize the unconventional photonic lantern with different differential mode attenuation (DMA). Simulation has been carried out to investigate the dependence of DMA on the structure of the RI modified waveguide, and experiments have been implemented to investigate the dependence of DMA on discharge parameters, which matches well with the simulated tendency. In addition, CCD measurements of all three output ports have been performed on the fabricated devices, well-defined mode field patterns and high mode purity at the C-band can be observed. The proposed novel unconventional photonic lanterns open a new way to obtain simultaneous mode multiplexing / demultiplexing and mode-dependent loss equalization function, which will be greatly beneficial in the few-mode fiber transmission system.
与模式有关的损耗均衡化少模光纤光子灯笼
我们提出并制造了一种非常规的光子灯笼,它不仅能够实现模式复用和解复用,还具有模式相关损耗均衡功能。在光子灯笼尾纤与少模光纤熔接的过程中,通过控制熔接参数,在熔接区域形成折射率(RI)修正波导,通过该波导,基模将比高阶模具有更高的衰减,这使我们能够控制不同模式的衰减,从而定制具有不同差模衰减(DMA)的非常规光子灯笼。我们通过仿真研究了 DMA 与 RI 改进波导结构的关系,并通过实验研究了 DMA 与放电参数的关系,结果与仿真趋势吻合。此外,还对制作的器件的三个输出端口进行了 CCD 测量,可以观察到清晰的模场模式和 C 波段的高模式纯度。所提出的新型非传统光子灯笼为同时获得模式复用/解复用和模式相关损耗均衡功能开辟了一条新途径,这将大大有利于少模光纤传输系统。
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来源期刊
IEEE Photonics Journal
IEEE Photonics Journal ENGINEERING, ELECTRICAL & ELECTRONIC-OPTICS
CiteScore
4.50
自引率
8.30%
发文量
489
审稿时长
1.4 months
期刊介绍: Breakthroughs in the generation of light and in its control and utilization have given rise to the field of Photonics, a rapidly expanding area of science and technology with major technological and economic impact. Photonics integrates quantum electronics and optics to accelerate progress in the generation of novel photon sources and in their utilization in emerging applications at the micro and nano scales spanning from the far-infrared/THz to the x-ray region of the electromagnetic spectrum. IEEE Photonics Journal is an online-only journal dedicated to the rapid disclosure of top-quality peer-reviewed research at the forefront of all areas of photonics. Contributions addressing issues ranging from fundamental understanding to emerging technologies and applications are within the scope of the Journal. The Journal includes topics in: Photon sources from far infrared to X-rays, Photonics materials and engineered photonic structures, Integrated optics and optoelectronic, Ultrafast, attosecond, high field and short wavelength photonics, Biophotonics, including DNA photonics, Nanophotonics, Magnetophotonics, Fundamentals of light propagation and interaction; nonlinear effects, Optical data storage, Fiber optics and optical communications devices, systems, and technologies, Micro Opto Electro Mechanical Systems (MOEMS), Microwave photonics, Optical Sensors.
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