SU710006A1 - Device for measuring characteristics of open resonator electromagnetic field - Google Patents

Description

(54) DEVICE FOR MEASURING CHARACTERISTICS

ELECTROMAGNETIC FIELD OF OPEN RESONATOR

one

This invention relates to a radio measurement technique.

A device for measuring the characteristics of the electromagnetic field of an open resonator is known, which contains a probe probe installed in the open cavity under study, a microwave generator connected to the first radiator, and a first detector connected through the first resonant amplifier to the recorder 1.

However, this device does not measure the polarization characteristics of the electromagnetic field of an open resonator.

The purpose of the invention is to measure the polarization characteristics of the electromagnetic field of an open resonator.

For this purpose, a microwave device connected to the first radiator and the first detector connected through the first resonant amplifier with the recorder are inserted into the device for measuring the characteristics of the electromagnetic field of an open resonator, which contains a probe probe, and a first detector connected to the first resonant amplifier with a recorder. , phase modulator included. between the output of the microwave generator and the open resonator input, and a polarization separator and whose input is connected to the open resonator output, and a first detector is connected to one of its outputs, and a second detector and a second resonant amplifier are connected in series between the other output and the second input of the recorder.

The drawing shows a block diagram of the proposed device.

The device for measuring the characteristics of the electromagnetic field of an open resonator contains a probe probe 1 installed in the open cavity under study, 2, a microwave generator 3 connected to the first radiator 4, the first detector 5 connected through the first resonant amplifier 6 to the recorder 7, the second radiator 8 connected to the microwave generator 3, the phase modulator 9, connected between the output of the microwave generator 3 and the input of the open resonator 2, n the separator 10 polarization, the input cat The op is connected to the output of an open resonator 2. The first detector 5 is connected to one of the outputs of the separator 10, and between the other output and the second input of the recorder 7 are connected in series the second detector 11 and the second resonant amplifier 12.

The device works as follows.

 The signal of the microwave generator 3 through the directional coupler 13 and the phase modulator 9 is fed to the input of the open resonator 2. In this case, when one mirror 14 of the open resonator is axially moving relative to another mirror 15 by means of the displacement unit 16, the open resonator is excited on one of the natural modes the signal of the microwave generator 3 through the double waveguide tee 17 by means of the emitters 4 and 8 falls into the region of the location of the probe 1, where the interface is formed entsi field between the open cavity 2, and fields of the emitters 4 and 8. Thus interfere only parallel components of the field. The fields of the emitters 4 and 8 are in phase at the position of probe probe 1 and have the same amplitudes. Since the electromagnetic field of the open resonator 2 is modulated in. phase, the interference pattern moves in time and space. Consequently, the probe probe 1 is alternately located in areas ,. destructive and constructive interference, which leads to the formation of harmonic oscillations of the magnitude of the resonance coefficient of the front 1 and the open resonator 2, since in the region of destructive interference the probe probe does not disturb the own field of the open resonator, but in the region of constructive interference reduces its quality factor.

Consequently, at the outputs of the detectors L and 11, signals appear at the intermediate frequency, the amplitudes of which are proportional to the amplitudes of the corresponding components of the electromagnetic field of the open cavity 2 under study, and the phase difference between them is equal to the phase difference between these components. The signals at the intermediate frequency, via identical resonant amplifiers b and 12, are fed to the recorder 7, for example, on an X and Y plate of an electronic oscilloscope. The Lissajou figure thus obtained represents the ellipse of polarization of the electromagnetic field of an open resonator 2 at the point of location of the probe probe 1. The proposed device allows to measure the polarization characteristics of the electromagnetic field of an open resonator.

Claims (1)

1. USSR author's certificate No. 363051, cl. G 01 R 29/08, 1972 (prototype). tf