基于菲涅尔透镜阵列的太阳能固体激光器均匀侧泵浦

IF 1.204 Q3 Energy

Applied Solar Energy Pub Date : 2024-06-14 DOI:10.3103/S0003701X23601333

Hongfei Qi, Yan Liu, Lanling Lan, Yuanyuan Zhang, Xiuhua Ma

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引用次数: 0

摘要

摘要均匀侧泵浦可以降低激光晶体棒的热应力，是实现高功率激光输出的有效方法。为了实现激光晶体棒的均匀侧泵浦，提出了一种基于平面镜和线性菲涅尔透镜阵列的太阳能聚光系统。射线追踪结果表明，经过优化，太阳能聚光系统的聚光效率和光斑均匀度分别达到了 66.5%和 98.5%。利用 Comsol 软件计算了激光晶体棒的温度分布。结果显示，激光棒的中心温度和表面温度分别为 316 K 和 306 K。在求解速率方程的基础上，分析了激光输出特性。激光输出功率和太阳能-激光转换效率分别为 88.5 W 和 3.3%。这种均匀侧泵浦配置为开发高功率太阳能泵浦固体激光器提供了新方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Uniform Side-Pumping of Solar Solid-State Laser Based on Fresnel Lens Array

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Uniform Side-Pumping of Solar Solid-State Laser Based on Fresnel Lens Array

Uniform side-pumping can reduce the thermal stress of laser crystal rod and is an effective method to achieve high power laser output. In order to realize the uniform side-pumping of the laser crystal rod, a solar concentrating system based on plane mirrors and linear Fresnel lens array is proposed. Rays tracing shows that the concentrating efficiency of solar concentrating system and the uniformity of the light spot reach 66.5 and 98.5% with optimization. The temperature distribution in the laser crystal rod is calculated by Comsol software. The results show the central temperature and the surface temperature of laser rod are 316 and 306 K, respectively. Base on solving the rate equations, the laser output characteristics are analyzed. The laser output power and the solar-to-laser conversion efficiency are 88.5 W and 3.3%, respectively. This uniform side-pumping configuration provides the new method for developing high power solar-pumped solid-state lasers.

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来源期刊

Applied Solar Energy Energy-Renewable Energy, Sustainability and the Environment

CiteScore

2.50

自引率

0.00%

发文量

期刊介绍： Applied Solar Energy is an international peer reviewed journal covers various topics of research and development studies on solar energy conversion and use: photovoltaics, thermophotovoltaics, water heaters, passive solar heating systems, drying of agricultural production, water desalination, solar radiation condensers, operation of Big Solar Oven, combined use of solar energy and traditional energy sources, new semiconductors for solar cells and thermophotovoltaic system photocells, engines for autonomous solar stations.