活体猫眼的光学质量。
Optical quality of the living cat eye.
作者信息
Bonds A B
出版信息
J Physiol. 1974 Dec;243(3):777-95. doi: 10.1113/jphysiol.1974.sp010777.
Abstract
- The optical quality of the living cat eye was measured under conditions similar to those of cat retinal ganglion cell experiments by recording the aerial image of a nearly monochromatic thin line of light.2. Experiments were performed to assess the nature of the fundal reflexion of the cat eye, which was found to behave essentially as a diffuser.3. The optical Modulation Transfer Function (MTF) was calculated from the measured aerial linespread using Fourier mathematics; the MTF of a ;typical' cat eye was averaged from data collected from ten eyes.4. The state of focus of the optical system, the pupil size and the angle of the light incident on the eye were all varied to determine their effect on image quality.5. By using an image rotator, the aerial linespread was measured for several orientations of the line; these measurements yielded an approximation of the two-dimensional pointspread completely characterizing the optical system.6. Evidence is reviewed to show that the optical resolution of the cat, albeit some 3-5 times worse than that of human, appears to be better than the neural resolution of its retina and its visual system as a whole.
摘要
通过记录近乎单色细光线的空中图像,在类似于猫视网膜神经节细胞实验的条件下测量活猫眼的光学质量。
进行实验以评估猫眼眼底反射的性质,发现其本质上表现为漫射体。
使用傅里叶数学从测量的空中线扩展计算光学调制传递函数(MTF);典型猫眼的MTF是从十只眼睛收集的数据中平均得到的。
改变光学系统的聚焦状态、瞳孔大小和入射到眼睛上的光的角度,以确定它们对图像质量的影响。
通过使用图像旋转器,测量线在几个方向上的空中线扩展;这些测量得出了完全表征光学系统的二维点扩展的近似值。
回顾证据表明,猫的光学分辨率虽然比人类差约3至5倍,但似乎优于其视网膜及其整个视觉系统的神经分辨率。
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本文引用的文献
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