Application of stochastic parallel gradient descent algorithm in laser beam shaping

刘. L. Lei, 郭. G. Jin, 赵. Z. Shuai, 姜振华 Jiang Zhen-hua, 孙. S. Tao, 王挺峰 Wang Ting-feng
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引用次数: 2

Abstract

In the field of laser applications,in order to meet the need of high laser beam quality,correct the wave-front aberration generated during the transmission of laser beam and improve the laser phase distribution,thereby increase the energy concentration of the beam focusing spot,a set of laser beam shaping experimental system is built based on a 79-channel micromachine membrane deformable mirror(MMDM).By using stochastic parallel gradient descent(SPGD) algorithm,the laser beam shaping experiment is carried out respectively with three performance indexes:radius of the focused spot,encircled energy ratio with geometric center as the center,and encircled energy ratio with centroid as the center.In the three cases,convergences come forth after about 58 times,197 times,133 times of iterations,respectively,but the evolution curve of spot radius oscillates seriously.Encircled energy ratios increase from 0.200 5,0.127 7,0.200 5 before shaping to0.669 9,0.733 9,0.864 0 after shaping,respectively.The results of experiments show that MMDM can be used for laser beam shaping with well results.The shaping speed is fastest with spot radius as the performance index,followed by encircled energy ratio of centroid and encircled energy ratio of geometric center.The shaping effect is best with encircled energy ratio of centroid,followed by the encircled energy ratio of geometric center and spot radius.After synthetical comparison,it is best to choose encircled energy ratio of centroid as the performance index.
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随机平行梯度下降算法在激光束整形中的应用
在激光应用领域,为了满足高光束质量的需要,纠正激光在传输过程中产生的波前像差,改善激光相位分布,从而提高光束聚焦光斑的能量集中,建立了一套基于79通道微机膜变形镜(MMDM)的激光束整形实验系统。采用随机平行梯度下降(SPGD)算法,分别以聚焦光斑半径、以几何中心为中心的围能比和以质心为中心的围能比三个性能指标进行激光束整形实验。在三种情况下,分别经过58次、197次、133次迭代后收敛,但斑半径演化曲线振荡严重。围能比分别由成型前的0.200 5、0.127 7、0.200 5增加到成型后的0.669 9、0.733 9、0.864 0。实验结果表明,MMDM可用于激光束整形,效果良好。以光斑半径为性能指标,成形速度最快,其次是质心围能比和几何中心围能比。形心围能比的整形效果最好,几何中心围能比次之,光斑半径围能比次之。综合比较后,最好选择质心围能比作为性能指标。
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