López David, Ríos Susana
Departamento Física Básica, Facultad de Física, Universidad de La Laguna, Spain.
Appl Opt. 2010 Apr 20;49(12):2334-8. doi: 10.1364/AO.49.002334.
A modified Hartmann test based on the interference produced by a four-hole mask can be used to measure an unknown wavefront. To scan the wavefront, the interference pattern is measured for different positions of the mask. The position of the central fringe of the diamond-shaped interference pattern gives a measure of the local wavefront slopes. Using a set of four-hole apertures located behind an array of lenslets in such a way that each four-hole window is inside one lenslet area, a set of four-hole interference patterns can be obtained in the back focal plane of the lenslets without having to scan the wavefront. The central fringe area of each interference pattern is narrower than the area of the central maximum of the diffraction pattern of the lenslet, increasing the accuracy in the estimate of the lobe position as compared with the Shack-Hartmann wavefront sensor.
基于四孔掩模产生的干涉而改进的哈特曼测试可用于测量未知波前。为了扫描波前,针对掩模的不同位置测量干涉图样。菱形干涉图样中心条纹的位置给出了局部波前斜率的度量。通过将一组四孔光阑放置在微透镜阵列后面,使得每个四孔窗口位于一个微透镜区域内,无需扫描波前即可在微透镜的后焦平面获得一组四孔干涉图样。与夏克 - 哈特曼波前传感器相比,每个干涉图样的中心条纹区域比微透镜衍射图样中央最大值的区域更窄,提高了瓣位置估计的准确性。