Orbital angular momentum mode femtosecond fiber laser with over 100 MHz repetition rate

None Hang Wu, None Liao Chen, None Shuai Li, None Yvfan Du, None Chi Zhang, None Xinliang Zhang
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Abstract

Orbital Angular Momentum (OAM) lasers have potential demand in many applications such as large capacity communication systems, laser processing, particle manipulation and quantum optics. OAM mode femtosecond fiber laser has become the research focus with the advantages of simple structure, low cost and high peak power. The current OAM mode femtosecond fiber lasers have made breakthroughs in the repetition frequency, pulse width, spectrum width and other key parameters, but it is difficult to achieve good overall performance. Besides, the repetition rate is currently in tens of MHz. In this paper, a large-bandwidth mode coupler is made based on the mode phase matching principle. Among them, the first order mode coupler with 3dB polarization dependent loss is made by the technology of strong fused biconical taper, and the second order mode coupler with 0.3dB polarization dependent loss is made by the technology of weak fused biconical taper. Combined with the nonlinear polarization rotation mode-locking mechanism, OAM mode femtosecond fiber lasers with over 100 MHZ repetition rate are built. The achievement of the key parameters is attributed to the selection of dispersion shifted fibers that can accurately adjust intracavity dispersion. Compared to traditional dispersion compensation fibers (DCF), the group velocity dispersion is reduced by an order of magnitude, so it can better adjust intracavity dispersion to achieve the indicators of large spectral bandwidth and narrow pulse width. In addition, the diameter of the fiber is 8μm, which is the same as that of a single mode fiber. Compared to DCF, the fusion loss can be ignored, so only a shorter gain Erbium-doped fiber is required that ensure a shorter overall cavity length and achieve high repetition frequency. The experimental results show that the first order OAM mode fiber laser has 113.6 MHz repetition rate, 98 fs half-height full pulse width, and 101nm 10-dB bandwidth. Second-order OAM mode fiber laser has 114.9 MHz repetition rate, 60 fs half-height full pulse width, and 100nm 10-dB bandwidth. Compared with the reported schemes, our scheme has better performance in key parameters such as repetition rate, pulse width and spectral width. We believe that the OAM mode fiber laser with good over performance is expected to be more widely used in OAM communication, particle manipulation and other research fields.
重复频率超过100mhz的轨道角动量模飞秒光纤激光器
轨道角动量激光器在大容量通信系统、激光加工、粒子操纵和量子光学等领域具有潜在的应用需求。OAM模式飞秒光纤激光器以其结构简单、成本低、峰值功率高等优点成为研究热点。目前的OAM模式飞秒光纤激光器在重复频率、脉宽、谱宽等关键参数上取得了突破,但难以实现良好的综合性能。此外,重复频率目前在几十兆赫。本文基于模式相位匹配原理,制作了一种大带宽模式耦合器。其中,具有3dB极化依赖损耗的一阶模式耦合器采用强熔接双锥技术制造,具有0.3dB极化依赖损耗的二阶模式耦合器采用弱熔接双锥技术制造。结合非线性偏振旋转锁模机构,构建了重复频率超过100 MHZ的OAM模式飞秒光纤激光器。关键参数的实现归功于色散位移光纤的选择,该光纤可以准确地调节腔内色散。与传统色散补偿光纤(DCF)相比,群速度色散降低了一个数量级,因此可以更好地调节腔内色散,实现大频谱带宽和窄脉宽的指标。光纤直径为8μm,与单模光纤直径相同。与DCF相比,融合损耗可以忽略不计,因此只需要更短的增益掺铒光纤,就可以保证更短的总腔长和更高的重复频率。实验结果表明,一阶OAM模式光纤激光器具有113.6 MHz的重复频率、98 fs的半高全脉冲宽度和101nm的10db带宽。二阶OAM模式光纤激光器具有114.9 MHz重复频率,60 fs半高全脉宽,100nm 10db带宽。与已有的方案相比,我们的方案在重复率、脉冲宽度和谱宽等关键参数上具有更好的性能。我们相信,具有良好超性能的OAM模式光纤激光器有望在OAM通信、粒子操纵等研究领域得到更广泛的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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