传导冷却Yb:YAG有源镜放大器的10 J运转及100 Hz运转前景

10 J operation of a conductive-cooled Yb:YAG active-mirror amplifier and prospects for 100 Hz operation.

作者信息

Ogino Jumpei, Tokita Shigeki, Kitajima Shotaro, Yoshida Hidetsugu, Li Zhaoyang, Motokoshi Shinji, Morio Noboru, Tsubakimoto Koji, Fujioka Kana, Kodama Ryosuke, Kawanaka Junji

出版信息

Opt Lett. 2021 Feb 1;46(3):621-624. doi: 10.1364/OL.414926.

DOI:10.1364/OL.414926

PMID:33528425

Abstract

We report, to the best of our knowledge, the highest power conductive-cooled active-mirror amplifier (CcAMA) using Yb:YAG with a pulse energy of 10 J. By using four liquid-nitrogen circulating cooled laser heads, we achieved a repetition rate, pulse energy, and average power of 33.3 Hz, 9.3 J, and 310 W, respectively. The problem of wavefront distortion, which is difficult to solve with a large-aperture active-mirror laser, is suppressed by using reinforcing materials with the same thermal expansion coefficient. We have confirmed that the wavefront distortion is small (0.15 P-V per head) at 100 Hz operation, which paves the way for 100 Hz operation with the CcAMA concept.

摘要

据我们所知，我们报道了使用掺镱钇铝石榴石（Yb:YAG）的最高功率传导冷却有源镜放大器（CcAMA），其脉冲能量为10焦耳。通过使用四个液氮循环冷却的激光头，我们分别实现了33.3赫兹的重复频率、9.3焦耳的脉冲能量和310瓦的平均功率。通过使用具有相同热膨胀系数的增强材料，抑制了大口径有源镜激光器难以解决的波前畸变问题。我们已经证实，在100赫兹运行时波前畸变很小（每个激光头0.15峰谷值），这为采用CcAMA概念的100赫兹运行铺平了道路。