摘要
在激光实际应用中,为了提高系统的利用效率,常常需要将激光器的输出光束整形为特定光强分布光束。基于纯相位液晶空间光调制器的高空间分辨率、实时可编程控制等特性,结合模拟退火算法搭建了一套自适应近场光束整形系统。理论模拟了该系统对于理想高斯光束的近场整形效果,并基于这一闭环系统,对固体激光器输出的近高斯光束进行了近场光束整形实验,在近场得到了近平顶的光强分布,分析表明整形光束64%的功率集中在了均匀性误差小于9%的范围内。
In practical applications,it is always necessary to convert the intensity distributions of the laser beams into desired profiles for improving the efficiency.Based on the high spatial resolution and programmable controller of the phase-only liquid crystal spatial light modulator,an adaptive near-field beam shaping system composed of simulated annealing algorithm is built.The feasibility of the system is validated by translating an ideal Gaussian beam into a flattop beam in the near field theoretically.Finally,the experimental closed control loop system is built to convert a quasi-Gaussian beam emitting from a solid laser into a quasi-flattop beam in the near field.The experimental results show that 64% energy of the actual output beam concentrates in a region which has a relative root mean square(RMS) intensity variation less than 9%.
出处
《光学学报》
EI
CAS
CSCD
北大核心
2011年第3期155-159,共5页
Acta Optica Sinica
关键词
激光光学
光束整形
模拟退火算法
泽尼克多项式
beam shaping
laser optics
simulated annealing algorithm
Zernike polynomials
