探索用于高功率激光应用的自修复液态金属反射镜

Laser Damage Pub Date : 2023-11-24 DOI:10.1117/12.2685176

Gregory S. Demos, Brittany N. Hoffman, J. Lambropoulos, Marcela Mireles

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引用次数: 0

摘要

我们探索了基于镓合金的液态金属反射镜的激光损伤行为，以发现其提供更高损伤阈值性能的潜力。使用液态金属反射镜的主要优势之一是在受到高功率激光脉冲干扰后具有自我修复的潜力。在这项工作中，使用填充了三种不同 Ga 液体金属合金的熔融石英电池研究了反射率、激光损伤起始机制和起始阈值等关键性能指标。结果表明，在 355 nm、6 ns 脉冲下发生的不可逆改性（损伤）与氧化镓的形成有关，其发生的通量明显高于传统金属反射镜的损伤起始通量。这项探索性工作在同类研究中尚属首次，凸显了镓合金金属镜的强大性能。

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Exploring self-healing liquid metal mirrors for high-power laser applications

We explore the laser-damage behavior of gallium alloy-based liquid metal mirrors for their potential to provide higherdamage- threshold performance. One of the key advantages of using liquid metal mirrors is the self-healing potential following perturbations arising from exposure to high-power laser pulses. In this work, key performance metrics, such as reflectivity and the laser-damage initiation mechanism and initiation threshold, were investigated using fused-silica cells filled with three different Ga liquid metal alloys. The results suggest that irreversible modification (damage) under 355- nm, 6-ns pulses are associated with the formation of gallium oxide, taking place at a fluence significantly higher than that for damage initiation in conventional metal mirrors. This exploratory work is the first of its kind and highlights the strong performance of gallium alloy metal mirrors.

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Laser Damage

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