SU414538A1 - - Google Patents

Description

The invention relates to radio engineering. The device can be used to measure the mono-momentum of the pulsed microwave and laser radiation of the visible and infrared ranges.

A device for measuring the peak power of electromagnetic radiation is known, which contains a recorder, a magnetizing system of a monochromatic light source.

But this device is unsuitable for measurements in the wide: range of the spectrum of electromagnetic radiation. In addition, its recording medium does not allow to remember the result of registration for the required time.

The purpose of the invention is to expand the frequency range of the measurement, as well as to memorize the result. For this purpose, the recorder of the proposed device is made in the form of a magnetic film with a stripe structure that reacts to polarized radiation.

The drawing shows a block diagram of the device.

The device contains a source of measured radiation 1, a beam-splitting plate 2, a measuring instrument 3, an auxiliary optical link 4, a recording panel 5, a measuring unit 6, and a titanium-7 unit. The record nel includes a recorder 8 and a magnetizing system formed by magnetizing coils 9, 10 .

The measuring unit contains a source of monochromatic light 11, the optical processing system of the uniformed 12, the transmitting camera 13 and the video monitoring device

14. The recorder is made in the form of a magnetic film with a stripe structure on which a colloid is applied.

Measured radiation is fed to a magnetic film, to which an orienting magnetic field is preliminarily applied, the magnitude of which is greater than the saturation of the film, and then the magnetic field at an angle of 90 ° to the direction of the magnetic field parallel to the magnetic vector

polarized electromagnetic radiation, less than the threshold field of unstressed sections of the strip-film.

If the pulse duration of the radiation being detected exceeds the relaxation time

stripe domains, the mechanical stress pattern is reversible due to the spatial distribution of the electromagnetic field.

Since different areas of the film act on incident light as diffraction gratings rotated at different angles, the diffraction angle of light in these areas also differs, which, at the point of observation of the distribution of intensity, corresponds exactly to the distribution of angles of rotation of the countryt domains in different parts of the film, which is uniquely determined by the spatial structure of the electromagnetic radiation. The rotation of the stripe structure is irreversible due to the conservatism of domain boundaries.

By selecting stripe plexes with the required start-up characteristic (dependence of the rotation angle of the stripe structure on the rotating floor), one can obtain the desired measurement range and sensitivity of the measuring device. The non-resonance nature of the interaction of the stripe structure with electromagnetic radiation allows the proposed device to be used in measuring peak

the radiation power of a volc phyro range.

Subject invention

A device for measuring the peak power of electromagnetic radiation, containing a recorder, a magnetizing system and a source of monochromatic light, characterized in that, in order to expand the frequency range of the measurement, as well as to store the result, the recorder is made in the form of a magnetic film with a stripe structure that reacts to polarized radiation.

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