SU1101705A1 - Method of measuring lens of two-dimensional transfer functions - Google Patents

Abstract

A METHOD FOR MEASURING TWO-DIMENSIONAL i TRANSMISSION FUNCTIONS OF LENSES, including linear photographic recording of a diffraction image of a point, shaping the power spectrum of a slide with this image, aiming at measuring the generated spectrum and determining the square root of the measured power spectrum, with the aim of defining the generated square spectrum from the measured power transfer function using the square root of the measured power spectrum, as a result of which, in order to determine the transmission function using the square root of the measured power spectrum, you can go to the scale of the generated spectrum and determine the transfer function by square root of the measured power spectrum. while reducing their labor intensity, in the process of photographic registration of the diffraction image, points are carried out spatial modulation (M carrier frequency. vj of the joint venture

Description

The invention relates to optical measurement technology, is intended to measure the two-dimensional transfer functions of lenses, and can be used to assess the quality of lenses during opto-technical testing and control. The known method of measuring the two-dimensional transfer functions of lenses includes linear recording of the Fourier hologram of the spectrum of the pupillary function of the lens, matched filtering of the spectrum of this function and photometric measurement of the light distribution in the correlation plane IJ. The disadvantage of this method is that its scope is limited to the area of monochromatic transfer functions. The closest to the proposed technical essence is the method of measuring two-dimensional transfer functions of lenses, including linear photographic recording of a diffraction image of a point, formation of a power spectrum of a slide with these images, photometry of the formed spectrum and determination of transfer function values by the square root of the measured power spectrum 2j Disadvantage a known method is the low accuracy of the measurements, due to the presence of the background constant passing through slideshow. When measuring the power spectrum in a coherent optical spectrum analyzer, the presence of a constant transmittance component imposes on the power spectrum a diffraction image of a point of the power spectrum of the background power. The effect of this overlay on measurement accuracy is minimized when the size and shape of the framing frame coincides with the dimensions and shape of the di (4,. Of the image of a point. However, making such a frame for each particular case is a difficult task. At the same time with dimensions and shape different from the size and shape of the image, the accuracy deteriorates the more, the more these differences are. The aim of the invention is to increase the measurement accuracy while reducing their labor intensity. The goal is achieved by the method of measuring two-dimensional transfer functions of lenses, including linear photographic registration of a diffraction image of a point, formation of a power spectrum of a transparency with this image, photometric measurement of the generated spectrum and determination of the transfer function values by the square root of the diffraction photographic the image of the point carries out its spatial modulation by the carrier frequency. FIG. 1 shows the optical scheme of the device for implementing the proposed method and the path of the beams in this device in FIG. 2 - power spectrum of a slide with a diffraction image of a point recorded at carrier frequency o. The method of measuring the two-dimensional transfer functions of the lenses can be carried out using the device shown in FIG. 1. The device includes a block 1 of a point source of light of the desired spectral composition, a test lens 2, a periodic raster 3 whose transmission varies according to a harmonic law with frequency, a cassette 4 for attaching a photo layer and a film with a diffraction image of a point, a block 5 of forming a coherent point source light, collimating lens 6, mirror 7, installed pivotally at an angle of 45 (in Fig. 1, the working position of the mirror is shown by a dotted line) Fourier lens 8, plane 9 of registration power spectrum and block 10 for recording this spectrum. In accordance with the proposed method, the point source 1 of light is projected onto the photo layer, placed in the cassette 4, through a periodic raster 3 mounted close to the photo layer using the test lens 2. In the process of photographic recording of the diffraction image of point 1, it is spatially modulated with the carrier frequency o. Then the photolayer is subjected to chemical-photographic processing, for example, to the appearance, in the POT developer followed by

Claims (1)

METHOD FOR MEASURING TWO-DIMENSIONAL AND TRANSMISSION FUNCTIONS OF OBJECTS, including linear photographic recording of a diffraction image of a point, formation of a power spectrum of a transparency with this image, photometry of the formed spectrum and determination of the transfer function by the square root of the measured power spectrum, which differs in that, with the aim of increasing the accuracy, to increase the accuracy while reducing their complexity, in the process of photographic registration of the diffraction image, the points carry out its simple nstvennuyu modulation carrier frequency. FIG. 1