红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2015年
3期
857-862
,共6页
李远洋%刘立生%王挺峰%邵俊峰%郭劲
李遠洋%劉立生%王挺峰%邵俊峰%郭勁
리원양%류립생%왕정봉%소준봉%곽경
公差像差%Collins公式%Zernike多项式%Gaussian光束
公差像差%Collins公式%Zernike多項式%Gaussian光束
공차상차%Collins공식%Zernike다항식%Gaussian광속
tolerance aberration%Collins formula%Zernike polynomial%Gaussian beam
在Collins公式基础上,将像差项用Zernike多项式展开后加入衍射积分,获取实际激光光束通过光学系统后的光强分布。对相关理论进行仿真,验证了理论的正确性。同时针对实际激光聚焦光学系统,从统计规律角度分析了系统公差引入对Gaussian光束聚焦光斑带来的影响。计算结果表明聚焦光斑总体随波像差RMS值增大而增大,不同像差分布形式对聚焦光斑特性影响较大。未分配系统公差时,激光聚焦光斑半径为1.520 mm;引入系统公差后,聚焦光斑半径有90%概率小于2.085 mm,平均值为1.700 mm,标准偏差为0.238 mm。
在Collins公式基礎上,將像差項用Zernike多項式展開後加入衍射積分,穫取實際激光光束通過光學繫統後的光彊分佈。對相關理論進行倣真,驗證瞭理論的正確性。同時針對實際激光聚焦光學繫統,從統計規律角度分析瞭繫統公差引入對Gaussian光束聚焦光斑帶來的影響。計算結果錶明聚焦光斑總體隨波像差RMS值增大而增大,不同像差分佈形式對聚焦光斑特性影響較大。未分配繫統公差時,激光聚焦光斑半徑為1.520 mm;引入繫統公差後,聚焦光斑半徑有90%概率小于2.085 mm,平均值為1.700 mm,標準偏差為0.238 mm。
재Collins공식기출상,장상차항용Zernike다항식전개후가입연사적분,획취실제격광광속통과광학계통후적광강분포。대상관이론진행방진,험증료이론적정학성。동시침대실제격광취초광학계통,종통계규률각도분석료계통공차인입대Gaussian광속취초광반대래적영향。계산결과표명취초광반총체수파상차RMS치증대이증대,불동상차분포형식대취초광반특성영향교대。미분배계통공차시,격광취초광반반경위1.520 mm;인입계통공차후,취초광반반경유90%개솔소우2.085 mm,평균치위1.700 mm,표준편차위0.238 mm。
The method to obtain the intensity distribution of laser beam after propagation through practical optical systems was proposed by combining the Collins formula and the Zernike polynomials for aberrations. The simulations were given to prove the correctness of the theory. Using this theory, the statistical change of the focus spots of Gaussian beams affected by the tolerance aberrations was presented. As a result, it shows that the spot radii increase with the RMS wave front aberrations and the detail forms of tolerance aberrations are important for the issue of laser beam focusing. Detail analysis of a practical system demonstrates that the spot radius is 1.520 mm without the tolerance aberrations. After the tolerance is introduced, the spot radius has an average of 1.700 mm, a standard deviation of 0.238 mm and it is smaller than 2.085 mm with a probability of 90%.
