摘要
U形腔设计,利用大基模体积的腔型特性,得到了低阶模运转的大功率基频激光器,采用凹透镜补偿激光晶体的热透镜焦距原理对激光晶体的热透镜焦距进行补偿,试验结果与理论分析结果吻合较好。实验中采用了9个20W的高功率半导体激光器侧面抽运晶体直径为2mm的单Nd∶YAG棒,长腔型设计,最终实现了最高输出功率为22.3W,M2因子为1.8,稳定性(RMS值)<1%的TEM00输出。
Basic frequency laser of high power operating on the condition of low-order mode was obtained according to the design of U shape resonant cavity which could get large volume of basic frequency. In the experiment, concave mirror inserted inside the cavity compensating the thermal birefringence to obtain high output power was analyzed theoretically which was in good agreement with experimental data. In the experiment, we adopted 9 LD bars, each of which have 20W output power to side pump single 2mm Nd: YAG stick, and U shape design to realize M2 factor 1.8, the output power stability of the laser RMS 〈 1% and the 22.3W output power.
出处
《激光与红外》
CAS
CSCD
北大核心
2006年第7期539-541,共3页
Laser & Infrared