SU429556A1 - METHOD OF CONTROL OF SPATIAL RESOLUTION OF ELECTRON-OPTICAL CONVERTERS - Google Patents

Description

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This invention relates to a measurement technique.

There is a known method for monitoring the resolution of electron-optical converters, which use a slit test, and quality control is determined by the width of the output signal recorded on a recorder.

However, in the known method, at low intensities of the light flux at the input, the output signal captured by the photoreceiver from the reading output slit is highly susceptible to fluctuations, which makes it almost impossible to determine the width of the output signal.

The purpose of the invention is to increase the accuracy of control.

This is achieved by using the second slit mask in the image in the plane of the screen to find the line of maximum intensity, then the light flux from the screen is passed through the third mask with a rectangular opening, achieving in advance a given illumination, after which the resulting image intensity distribution on the screen is converted using a fourth mask with a quadratic dependence of the height of the slit from the center to the edges into a number proportional to the dispersion of the apparatus function.

The drawing is a diagram illustrating the proposed method of controlling the spatial resolution of the electron-optical converters.

A beam of light from the source 1 through the frosted glass 2 illuminates the slit mask 3, which lens 4 - is designed on the photocathode 5 of the electron-optical converter. In this case, the law of change in the intensity of the image on screen 6 describes the spatial hardware function A (x) of the electron-optical converter. This image by lens 7 is first projected onto a slit mask 8, moving which in the focusing plane relative to the image, finds the line of maximum intensity (indicated by a vertical arrow in the drawing) by registering the light flux at the mask output with the help of lens 9, photoelectric receiver 10 and indicator 11. The light flux from the screen is then passed through a mask 12 with a rectangular opening (set in place of the mask 8 symmetrically to the line of maximum intensity) and a change in the illumination of the slit 3, achieve

setting the indicator indicator 11 to the reference mark corresponding to a constant value of zero initial moment:

Jo - / Ci L (x) dx const,

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