Zhixiang Liu, Tingwen Xin, Yadong Jiang, B. Lv, Fuchao Xu
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引用次数: 1
摘要
横向剪切干涉法是测量高数值孔径光学系统波前像差的一种有吸引力的技术,利用二维光栅可以同时对波前进行二维分割和剪切。设计了一种基于棋盘光栅的二维横向剪切干涉仪,该干涉仪可以工作在相移模式和傅里叶变换模式下。在移相模式下,通过在像平面上沿剪切方向移动棋盘光栅来实现移相。在傅里叶变换模式下,将光栅定位在物象平面的塔尔博特距离上实现空间载波频率。设计了一种测量632.8nm波长下10倍NA0.25显微镜物镜的实验装置。利用双模实验装置对物镜进行测量,结果表明,物镜的波前RMS为0.172λ;在相移模式下,RMS的重复性(3σ)为1.1 mm λ;在傅里叶变换模式下,RMS的重复性(3σ)为2.7mλ;对波前坐标进行校正后,相移模式与傅里叶变换模式Z5 ~ Z36的差值大于8mm。
Two-dimension lateral shearing interferometry with dual-mode
Lateral shearing interferometry is an attractive technique to measure the wavefront aberration of high numerical aperture optical systems, of which using two-dimensional grating can divide and shear the wavefront in two-dimension simultaneously. A two-dimension lateral shearing interferometer based on chessboard grating was designed, which can work in dual-mode: the phase shifting mode and the Fourier transform mode. In the phase shifting mode, the phase shifting was realized by moving chessboard grating along the shearing direction in the image plane. In the Fourier transform mode, the spatial carrier frequency was realized by positioning the grating at the Talbot distance of the objective image plane. An experimental setup was designed to measure a 10×, NA0.25 microscope objective at 632.8nm wavelength. The objective was measured by the experimental setup in dual-mode, the results showed that the wavefront of the objective was 0.172λ RMS; in the phase shifting mode, the repeatability (3σ) of RMS was 1.1mλ; in the Fourier transform mode, the repeatability (3σ) of RMS was 2.7mλ; after correcting the coordinates of the wavefront, the differences of Z5 to Z36 between phase shifting mode and the Fourier transform mode were better than 8mλ.
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