图 1  FINCH系统原理示意图(P1和P2为偏振片)

Fig. 1.  Illustration of the principle of FINCH system, where P1 and P2 are polarizers.

图 2  可分辨物点半径${\rho _{\rm{o}}}$与${Z_{\rm{h}}}$的相互依赖关系(${f_{\rm{d}}}{\rm{ = }}\;0.60\;{\rm{m}}$)　(a)可分辨像斑半径${\rho _{\rm{o}}}$的数值模拟实验和解析计算的结果比较; (b)数值模拟的再现像斑的强度分布

Fig. 2.  Dependence of the radius ${\rho _{\rm{o}}}$ of resolvable image spot on the recording distance ${Z_{\rm{h}}}$ while keeping ${f_{\rm{d}}}{\rm{ = }}\;0.60\;{\rm{m}}$: (a) Comparisons between numerical simulation experiment and analytical calculation of resolvable speckle radius ${\rho _{\rm{o}}};$ (b) intensity profiles of reconstructed image spots by numerical simulation.

图 3  不同记录距离${Z_{\rm{h}}}$(0.30 m (a), 0.60 m (b)和1.20 m (c))获得的双物点再现像, 其中${f_{\rm{d}}} = 0.60\;{\rm{m}}$, 双物点间距$\varDelta $分别为$9.0$(第1行), $10.0$(第2行)和$11.0\; {\text{μ}} {\rm{m}}$(第3行); (d1), (d2)和(d3)分别表示双物点间距$\varDelta $为9.0, 10.0和$11.0\; {\text{μ}} {\rm{m}}$时, 再现像强度的一维分布

Fig. 3.  Reconstructed double images under different recording distances ${Z_{\rm{h}}}$ (0.30 m (a), 0.60 m (b) and 1.20 m (c)) while keeping ${f_{\rm{d}}} = 0.60\;{\rm{m}}$ for different spacing of two object points $\varDelta = 9.0\;{\text{μ}} {\rm{m}}$ (the first row), $10.0\;{\text{μ}} {\rm{m}}$ (the second row) and $11.0\; {\text{μ}} {\rm{m}}$ (the third row), respectively. (d1), (d2) and (d3) One-dimensional distribution of reconstructed image intensity for $\varDelta = 9.0, 10.0$ and $11.0\; {\text{μ}} {\rm{m}}$, respectively.

图 5  (a)计算机数字再现的图像, 其中对每一种衍射透镜焦距${f_{\rm{d}}}$(分别为0.30, 0.40, 0.50和0.60 m)测试了不同记录距离${Z_{\rm{h}}}$(= 0.90${f_{\rm{d}}},$ 0.95${f_{\rm{d}}},$ 1.00${f_{\rm{d}}},$ 1.05${f_{\rm{d}}}$, 1.10${f_{\rm{d}}}$); (b)不同的记录距离相对值(${{\alpha = {Z_{\rm{h}}}} / {{f_{\rm{d}}}}}$)对应的再现像可见度

Fig. 5.  (a) Computer digital reconstructed images for ${f_{\rm{d}}}$ = 0.30, 0.40, 0.50 and 0.60 m, each with different ${Z_{\rm{h}}}$ (= 0.90${f_{\rm{d}}},$ 0.95${f_{\rm{d}}},$ 1.00${f_{\rm{d}}},$ 1.05${f_{\rm{d}}}$ and 1.10${f_{\rm{d}}}$); (b) relative values of different recording distances (${{\alpha = {Z_{\rm{h}}}} / {{f_{\rm{d}}}}}$) corresponding to visibility of reconstructed image.

图 6  (a)—(o) 再现图像的裁剪部分, ${f_{\rm{d}}} = 0.60\;{\rm{m}}$, 记录距离${Z_{\rm{h}}}$从0.53 m到0.67 m, 红色框所标记区域的可见度将在图7中显示

Fig. 6.  (a)−(o) Cropped sections of reconstructed images when ${Z_{\rm{h}}}$ varies from 0.53 m to 0.67 m while ${f_{\rm{d}}}$ = 0.60 m. Visibility of the lines marked with the red box for the different ${Z_{\rm{h}}}$ will be plotted in Figure 7.

图 7  不同记录距离Z_h下, 图6红色方框标示区再现像的可见度分析　(a)可见度; (b) 标示区特征线的强度分布

Fig. 7.  Visibility of line pattern within the regions marked with the red box in Figure 6 for the different ${Z_{\rm{h}}}$: (a) Visibility of the line pattern; (b) intensity profile across the line pattern.

图 4  FINCH系统光学实验装置示意图

Fig. 4.  Schematic representation of experimental set-up of FINCH.