Cerium oxide for L-band Q-switched pulse laser generation

IF 2.6 3区计算机科学 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Optical Fiber Technology Pub Date : 2024-08-26 DOI:10.1016/j.yofte.2024.103945

M. Mansor , N.H. Zainol Abidin , E.K. Ng , A.K. Garg , J.Y.C. Liew , M.T. Alresheedi , M.A. Mahdi

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Abstract

Cerium oxide (CeO₂), a rare earth metal oxide belonging to the lanthanide group is a mature engineered nanoparticle that has been developed for various industry applications. The nanoparticle features defects in its lattice structure, which is highly advantageous for bandgap tuning, and is acclaimed for its least cytotoxicity among other metal oxides. In this work, CeO₂ is employed as a saturable absorber (CeO₂-SA) in the generation of an L-band Q-switched erbium-doped fiber laser. Q-switching was attained at 33.33 mW pump power threshold with a central wavelength of 1600.512 nm. Within 33.33 mW to 153.20 mW pump power range, the Q-switched laser obtained pulse repetition rates between 11.00 to 34.48 kHz, and pulse widths between 39.0 to 12.0 µs, with a high maximum pulse energy of 410 nJ. The Q-switched fiber laser remained stable over a 45-minute observation time at 153.20 mW pump power. The room temperature and direct mechanical deposition fabrication technique of the CeO₂-SA in this work demonstrates the extreme simplicity and low cost of the device, which would reduce the overall cost and facilitate a wider technology adoption of pulse laser systems.

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用于产生 L 波段 Q 开关脉冲激光的氧化铈

氧化铈（CeO2）是一种属于镧系元素的稀土金属氧化物，是一种成熟的工程纳米粒子，已开发出多种工业应用。这种纳米粒子的晶格结构存在缺陷，这对于调整带隙非常有利，而且在其他金属氧化物中，它的细胞毒性最小，因而备受赞誉。在这项研究中，CeO2 被用作可饱和吸收体（CeO2-SA），用于产生 L 波段 Q 开关掺铒光纤激光器。在中心波长为 1600.512 nm 的 33.33 mW 泵浦功率阈值下实现了 Q 开关。在 33.33 mW 至 153.20 mW 的泵浦功率范围内，Q 开关激光器获得了 11.00 至 34.48 kHz 的脉冲重复率和 39.0 至 12.0 µs 的脉冲宽度，最大脉冲能量高达 410 nJ。在 153.20 mW 泵浦功率下，Q 开关光纤激光器在 45 分钟的观测时间内保持稳定。这项工作中 CeO2-SA 的室温和直接机械沉积制造技术表明，该器件极其简单且成本低廉，这将降低总体成本，促进脉冲激光系统技术的广泛采用。

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来源期刊

Optical Fiber Technology 工程技术-电信学

CiteScore

4.80

自引率

11.10%

发文量

327

审稿时长

63 days

期刊介绍： Innovations in optical fiber technology are revolutionizing world communications. Newly developed fiber amplifiers allow for direct transmission of high-speed signals over transcontinental distances without the need for electronic regeneration. Optical fibers find new applications in data processing. The impact of fiber materials, devices, and systems on communications in the coming decades will create an abundance of primary literature and the need for up-to-date reviews. Optical Fiber Technology: Materials, Devices, and Systems is a new cutting-edge journal designed to fill a need in this rapidly evolving field for speedy publication of regular length papers. Both theoretical and experimental papers on fiber materials, devices, and system performance evaluation and measurements are eligible, with emphasis on practical applications.