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作 者:许缉熙 王欣[1] 唐景平[1] 陈伟[1] 陈树彬[1] 胡丽丽[1] Xu Jixi;Wang Xin;Tang Jingping;Chen Wei;Chen Shubin;Hu Lili(Key Laboratory of Materials for High Power Laser,Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences,Shanghai 201800,China;University of Chinese Academy of Sciences,Beijing 100049,China)
机构地区:[1]中国科学院上海光学精密机械研究所强激光材料重点实验室,上海201800 [2]中国科学院大学,北京100049
出 处:《激光与光电子学进展》2023年第21期233-242,共10页Laser & Optoelectronics Progress
基 金:国家惯性约束聚变领域资助项目(G-GFZX02050102021)。
摘 要:钕玻璃激光放大片在热恢复后的剩余温度场对于光束退偏和波前畸变具有重要的影响。当冷却过程中出现不对称情形,将导致剩余温度场的不对称,从而影响到高功率激光光束发次之间的重复性。本文在对N41型钕玻璃四周包边侧弱冷和强冷所导致的剩余温度场分布特征进行模拟分析的基础上,重点研究了包边侧不对称冷却所导致的剩余温度场的变化。这种变化的程度与钕玻璃四周包边侧冷却的强弱有关,并进一步分析了由弱冷转为强冷时钕玻璃激光放大片的通光面和四周包边界面上各自的散热量。The residual temperature field of a neodymium glass laser amplifier slab after thermal recovery significantly affects beam depolarization and wavefront distortion.When asymmetry occurs during the cooling process,it causes an asymmetrical distribution of the residual temperature field,which in turn affects the repeatability of the high-power laser beam between shots.This study conducted a simulation of the residual temperature field distribution characteristics derived from weak and strong cooling applied to the cladding sides of an N41-type neodymium glass slab.Changes to the residual temperature field caused by asymmetric cooling on the cladding sides were then investigated,where the degree of change is related to the strength of cooling on the cladding sides of the neodymium glass slab.Heat dissipation on the light-passing surfaces and cladding interfaces of the neodymium glass slab was further analyzed when weak cooling transformed to strong cooling.
关 键 词:材料 钕玻璃主放大片 有限元模拟 剩余温度场 不对称冷却 光束稳定性
分 类 号:TN244[电子电信—物理电子学] O551[理学—热学与物质分子运动论]
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