基于这一原理,我们研究了一种使用扫描显微镜和微计算机测量光学传递函数的方法。
Based on this principle, a method is described in this paper of measuring OTF of an optical system by means of scanning photometric microscope eyepices.
首先提出了补偿环节的传递函数,然后在理论上进行了验证,并推导出用计算机实现补偿的递推公式。
At first, the transfer function of the compensator is given, and then verified theoretically. Finally, a successive formula to realize the compensation of a computer is derived.
根据这种数学模型及实验实频特性,给出了电子计算机求解传递函数的方法;
Based on this model and the experimental real frequency characteristics, a method for solving the transfer function with computer is given.
用计算机模拟和光学传递函数数值计算,分析了采用不同环形透镜及探测器对系统成像特性的影响。
By using computer simulation and numerical computation of OTF, the image property is analyzed for the case of different annular lenses and detector in confocal scanning system.
用计算机模拟和光学传递函数数值计算,分析了采用不同环形透镜及探测器对系统成像特性的影响。
By using computer simulation and numerical computation of OTF, the image property is analyzed for the case of different annular lenses and detector in confocal scanning system.
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