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High-power solid-state lasers are desirable in directed-energy applications due to their high power output and scalability. The power transmission effectiveness of 1.06-micron high-power lasers in the atmosphere at low altitudes is impacted by a variety of atmospheric effects. We use a novel low-altitude atmospheric propagation model to evaluate power transmission for 1.06-micron high power lasers under various simulated weather conditions by estimating focal irradiance on a metal surface. We introduce a novel adaptive optics framework to improve low-altitude atmospheric propagation performance for high power lasers and validate performance using computer simulations.
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Chueh Ting, Hang Xu, Changhai Lin, "1.06-micron high power laser propagation in low-altitude atmosphere," Proc. SPIE 12413, Free-Space Laser Communications XXXV, 124130I (15 March 2023); https://doi.org/10.1117/12.2647060