Development and Demonstration of Australian First Working Sodium Guide Star Laser

光学与光子学期刊(英文) Pub Date : 2022-01-01 DOI:10.4236/opj.2022.124007

Yue Gao, Yanjie Wang, A. Chan, B. Greene

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Abstract

The Australian first working sodium guide star laser system has been designed and developed for various astronomical and space-related applications. A completely diode-pumped pulsed system was developed initially followed by a largely fiber-based continuous wave (CW) system operating at 589 nm achieved through a unique wavelength conversion scheme by combining 1342 and 1050 nm through a sum frequency generation process. For the CW system, single-mode laser beams at both 1342 and 1050 nm are achieved from fi-ber-based seed oscillators and fiber amplifiers. The output power of ~25 W at 1342 nm is achieved from a single frequency fiber Raman amplifier. Output power up to 70 W at 1050 nm is achieved from a Yb-doped fiber pre-amplifier followed by a Yb-doped fiber power amplifier. For the sum frequency generation process, optimum focusing parameters are evaluated and determined. The CW system has generated more than 20 W output power at 589 nm, a circularly polarised beam with a good beam quality, spectral linewidth ≤ 2 MHz, and the laser output locked on the sodium D 2 line at 589.159 nm. The system has been successfully demonstrated at EOS Space Research Centre, Mt Stromlo, Canberra, and become the Australian first working sodium guide star laser system.

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澳大利亚第一台工作钠导星激光器的研制与示范

澳大利亚首个工作的钠导星激光系统是为各种天文和空间相关应用而设计和开发的。最初开发了一个完全二极管泵浦脉冲系统，随后开发了一个主要基于光纤的连续波(CW)系统，该系统工作在589 nm，通过一种独特的波长转换方案，将1342和1050 nm结合起来，通过一个和频率生成过程。对于连续波系统，1342和1050 nm的单模激光束是由光纤种子振荡器和光纤放大器实现的。单频光纤拉曼放大器在1342 nm处的输出功率约为25 W。通过掺镱光纤前置放大器和掺镱光纤功率放大器，可在1050 nm处实现高达70 W的输出功率。对于和频产生过程，评估并确定了最佳聚焦参数。连续波系统在589 nm处产生了20 W以上的输出功率，光束质量良好，谱线宽度≤2 MHz的圆偏振光束，激光输出锁定在589.159 nm处的钠d2线上。该系统已在位于堪培拉斯特罗姆洛山的EOS空间研究中心成功演示，并成为澳大利亚首个工作的钠导星激光系统。

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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来源期刊

光学与光子学期刊(英文)

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发文量

431