用于紧凑型千赫兹线宽单频激光器的掺 Nd3+ 双包层磷化氟光纤

Jinzhong Zhu, Yongbao Xiao, Yao Ji, Jialong Li, Changsheng Yang, Qilai Zhao, Weichao Wang, Qinyuan Zhang
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引用次数: 0

摘要

单频光纤激光器的应用横跨引力波探测、相干光通信和原子物理等关键领域。掺杂稀土离子的玻璃光纤是其重要的增益介质,因此对先进光纤基质的探索至关重要。本文报告了一种新开发的掺杂 Nd3+ 的 AlF3-Na2SO4-KPO3-Zn(PO3)2 玻璃。这种玻璃具有优异的特性,包括较高的抗结晶稳定性(150∘C)、弹性模量(75 GPa)、化学耐久性(8.1×10-7g-cm-2-⋅min-1)、Nd3+浓度(1020 离子/cm3)、较宽的有效线宽(45 nm)和较长的使用寿命(465 µs),超过了传统的硅玻璃和磷酸盐玻璃。此外,定制设计的双包层掺 Nd3+ 光纤在 1064 nm 波长处的净增益系数为 3.2 dB/cm,利用 1.4 厘米长的光纤获得了 11 kHz 窄线宽的单频激光输出,表明这种光纤有望成为超窄线宽单频光纤激光器的增益介质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nd3+-doped double-clad fluoro-sulfo-phosphate fiber for a compact kilohertz-linewidth single-frequency laser
The utilization of single-frequency fiber lasers spans critical domains including gravitational wave detection, coherent optical communication, and atomic physics. Glass fibers doped with rare earth ions serve as pivotal gain media for them, and the quest for advanced fiber matrices is paramount. Herein, a newly developed Nd3+-doped AlF3-Na2SO4-KPO3-Zn(PO3)2 glass is reported. The glass showcases exceptional attributes including high anti-crystallization stability (>150C), elastic modulus (75 GPa), chemical durability (8.1×10−7g⋅cm−2⋅min−1), Nd3+ concentration (>1020ions/cm3), broad effective linewidth (45 nm), and extended lifetime (465 µs), surpassing those of conventional silica and phosphate glasses. Moreover, a custom-designed double-clad Nd3+-doped fiber with a net gain coefficient of 3.2 dB/cm at 1064 nm is fabricated, and single-frequency laser output with a narrow linewidth of 11 kHz has been obtained utilizing a 1.4-cm-long fiber, indicating the potential of this fiber as a promising gain medium for ultra-narrow-linewidth single-frequency fiber lasers.
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