激光技术, 2011, 35 (1): 82, 网络出版: 2011-08-30
16通抽运微通道冷却Yb∶YAG薄片激光器
16-pass pumped micro-channel cooled Yb∶YAG thin disk lasers
激光器 薄片参量优化 微通道冷却器 性能估算 lasers thin disk parameter optimization micro-channel cooler performance evaluation
摘要
为了研究Yb∶YAG薄片激光器的性能,采用16通抽运耦合、微通道冷却的方法,对薄片的优化厚度、热力学特性和激光性能等进行了理论分析,利用直径10mm、厚度为250μm、掺杂原子数分数为0.1的Yb∶YAG薄片进行了实验验证,抽运耦合系统实现了对薄片的16通抽运,在抽运功率为81.9W时,获得了平均功率为24.4W的激光输出,光光转换效率达到了29.8%。结果表明,多通抽运微通道冷却Yb∶YAG激光器可以获得较高的光光转换效率。
Abstract
In order to study the performance of an Yb∶YAG thin disk laser, a 16-pass pumped micro-channel cooled scheme was adopted. The optimum thickness of the Yb∶YAG disk, the thermo-mechanical effect in the disk and the laser performance are analyzed. The 16-pass pumping coupling is achieved in preliminary experiment using an Yb∶YAG disk (250μm in thickness and 10mm in diameter) with atomic fractional 0.1 doping concentration. The output power of 24.4W was obtained from the laser oscillator when the total pump power was 81.9W. The optical-to-optical conversion efficiency was up to 29.8%. The result shows that the higher conversion efficiency can be achieved in the 16-pass pumped micro-channel cooled Yb∶YAG thin disk laser.
马毅, 王春华, 王卫民, 涂波, 李奇峰, 石勇. 16通抽运微通道冷却Yb∶YAG薄片激光器[J]. 激光技术, 2011, 35(1): 82. MA Yi, WANG Chun-hua, WANG Wei-min, TU Bo, LI Qi-feng, SHI Yong. 16-pass pumped micro-channel cooled Yb∶YAG thin disk lasers[J]. Laser Technology, 2011, 35(1): 82.