SU928274A1 - Magneto-optical hysteriograph - Google Patents

Description

The invention relates to a magnetic measuring technique, in particular, to hysterographs for recording quasistatic hysteresis loops based on the magneto-optical effects of Farad and Kerr, and can be used to study the magnetic properties of the macro and micro parts of samples of various classes of ferromagnetic. The magneto-optical hysterographer is known, which in terms of essential features is closest to the invention. It contains a light source, a polarizer, a magnetizing system with a sample, a magnetic field-to-electric voltage converter, an electrical signal, a two-beam polarization prism, two radiation receivers, a magnetizing current generator, and a recording path consisting of a difference and summing circuit, the division circuit differential signal on the total and two-coordinate. The light source is connected to the sample through a polarizer and through a two-beam polarization prism with two radiation receivers, the outputs of which are connected simultaneously to the inputs of the differential and total schemes, the outputs of which are connected to the inputs of the dividing circuit, the output of the divider circuit is connected to the Y-input of the two-coordinate recorder. In this case, the output of the magnetic field voltage transformer into an electrical signal, connected through a magnetizing system to a magnetizing current generator, is connected to the X-input of a two-coordinate recorder 1. However, the measurement result obtained by this hysterographer is due to an error due to the different characteristics of the photodetectors (sensitivity, dark current, etc.), and during the measurement

due to changing external conditions or aging, even specially selected photodetectors can change their characteristics not equally, i.e. A disadvantage of the known hysterographer is its low accuracy.

The purpose of the invention is to improve the accuracy of recording quasistatic hysteresis loops.

This goal is achieved by the fact that a magneto-optical hysterographer containing a magnetization unit with a magnetizing current generator and a magnetic field-to-electric field intensity converter is optically coupled to a light source and a two-beam polarization prism with two photodetectors, a summing and a difference unit and connected to the latter, a two-coordinate recorder, equipped with an azimuth modulator and a modulation current generator connected to it, two amplifiers of constant current variable current transfer rate, two automatic gain controllers, and series-connected alternating voltage amplifier and a synchronous detector, while the azimuth modulator is optically coupled to a polarizer and a dual-beam polarization prism, the first inputs of the DC amplifiers are connected to the outputs of the photodetectors, and the outputs of the amplifiers of direct current are simultaneously connected to the inputs of the summing and distributive blocks, the output of the summing block through the first automatic p the amplification booster is connected to the second input of one of the DC amplifiers and directly to the AC amplifier input, the second input of the second DC amplifier through the second automatic gain control is connected to the output of the synchronous detector, the reference input of which is connected to the modulation current generator .

The drawing shows a structural scheme of a magneto-optical hysterographer.

The light source 1 is connected via a polarizer 2 with a sample 3 placed in a magnetizing unit 4 connected to a magnetizing current generator 5,

and through the azimuthal mo (

DU tor tor connected to generator

7 of the modulation current, and through a dual-beam polarization prism of 8 S with two photodetectors 9 and 10 connected to amplifiers 11 and 12, direct current with adjustable transmission coefficients, respectively; the outputs of amplifiers 11 and 12 are connected to the inputs of summing unit 13 and differential unit 1, the output of summing unit is connected to one of the inputs of automatic gain controller 15, to another input

S of which the UOP reference voltage is connected, the output of the gain controller 15 is connected to the control input of the amplifier 11. In addition, the output of the summing unit 13 is connected to the input of the ZAU of the AC voltage amplifier 16, the output of which is connected to the signal input of the synchronous detector 17, the reference input the detector is connected to the output of the modulating current generator 7, the output of the synchronous detector 17 is connected to the input of the automatic gain controller 18, the output of which is connected to the control input of the DC amplifier 12 with adjustable transmission ratio. The output of the differential unit 14 is connected to the H input of the two-coordinate recorder 19, and the X input of the recorder is connected to the converter 20 of the intensity of the magnetic field into an electrical signal. The hysterographer works as follows. in a way.

Claims (1)

1. Horn D., Sawacki E. Iodified magneto-optical 10 hysterograph. - Instruments for scientific research. M., Mir, 1972, ff 12, p. 112-113. / Li