SU1095234A1 - Source of magnetic control field for device for magneto-optical analyzing of uniaxial magnetic film - Google Patents

Abstract

SOURCE CONTROL OF MAGNETIC FIELDS FOR DEVICE magnetooptical investigations magnetically films containing a source of orthogonal magnetic fields directed parallel to the film plane arranged in the form of two double-circuit inductor, and the source of the magnetic field directed normal to the film plane arranged in the form of dual-coil inductance, wherein that, in order to reduce power consumption, it contains two magnetic flux concentrators, made in the form of a magnet wires of a material with high magnetic permeability such as ferrite, arranged one above the other) on the poles of the magnetic cores arranged katuschki source inductance orthogonal magnetic fields directed parallel to the film plane, the lower magnetic pole are displaced in space 90 ° relative to the poles of the upper magnetic circuit and provided with tips in which grooves are made to accommodate the film. (ABOUT

Description

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FIG. 1 The invention relates to computing and can be used in the construction of storage devices based on magnetically uniaxial films with cylindrical magnetic domains (CMD). A source of control magnetic fields for studying magnetically uniaxial films is known, which contains a source of a constant magnetic field made in the form of two permanent magnets and a source of orthogonal magnetic fields directed parallel to the film plane, made in the form of two inductors 1. Magnetic fields is the difficulty of magneto-optical research of films. The closest technical solution to the invention is a source of control magnetic fields for a device for magneto-optical research of magnetically uniaxial films, containing two double-circuit skids for creating orthogonal magnetic fields in the film plane and a double-circuit roller for creating a magnetic field normal to the film plane 2. However, the known control source Magnetic fields have a complex structure, high power consumption and low quality film research. The complexity of the design is explained by the complex shape of the cutters for creating orthogonal magnetic fields and the presence of a special sample table for placing the sample. The high power consumption is due to the fact that the coils have a large number of coils to provide the required fields, since the coils are spaced apart for better access to the sample. The poor quality of research is explained by the fact that the design of the device allows only a small area of the sample to be investigated. The purpose of the invention is to reduce the power consumed by the source of control magnetic fields. The goal is achieved by the fact that the source of control magnetic fields for a device for magneto-optical research of magnetically uniaxial films, contains a source of orthogonal magnetic fields directed parallel to the film plane, made in the form of two double-circuit inductors, and the source of a magnetic field, directed to the film norsing plane, made in the form two-loop inductors, contains two magnetic flux concentrators, made in the form of magnetic cores made of material with high magnetic permeability, such as ferrite, located one above the other, at the poles of the magnetic cores are placed the inductors of the source of orthogonal magnetic fields directed parallel to the film plane; the poles of the lower magnetic circuit are displaced in space by 90 ° relative to the poles of the upper magnetic circuit and provided with tips, in which are made for film placement. FIG. Figure 1 shows the design of the source of control magnetic fields; in fig. 2 - the same general view (without the inductance coil of the magnetic field source, directed normally to the film plane). The source of control magnetic fields contains two magnetic flux concentrators, made in the form of an upper magnetic circuit 1 with poles 2 and a lower magnetic circuit 3 with poles 4 and tips 5, a source of orthogonal magnetic fields in the film plane, made in the form of two two-circuit inductors 6 and 7, and a source of magnetic field, directed normally to the plane of the film, made in the form of a dual-circuit inductance coil 8. The proposed source of control magnetic fields works as follows. The test film 9 is placed in the grooves of the tips 5 of the poles 4 of the lower magnetic circuit 3. The inductors B and 7 are placed at the poles 2 and 4, respectively, which are shifted in space by 90 °. In order to form a rotating magnetic field in the film plane, each pair of inductors b and 7 are supplied with equal amplitude currents with a phase shift of 90 °. In order to form a magnetic field current orthogonal to the film, the current is fed into the inductor 8. In order for the field from the lower magnetic conductor -3 to form in the film plane, poles 4 are provided with tips 5 that simultaneously hold the sample of the film under study. By moving the device with the sample relative to the optical axis of the microscope, you can explore any areas of the film. Placing the inductors to create orthogonal magnetic fields in the film plane at the poles of the magnetic circuit of a material with high magnetic permeability and minimizing the distance between the poles reduces the number of turns of the inductance coils and obtains the required field at a lower power consumption. The proposed design of a source of control magnetic fields allows studies to be carried out without using an object stage and over the entire surface of the film. As a result, the design is simplified, the power consumption is reduced by 2.5 times and the quality of the film examination is improved.

Claims (1)

SOURCE OF CONTROLLING MAGNETIC FIELDS FOR DEVICE OF MAGNETO-OPTICAL RESEARCH OF MAGNETO-BASIC FILMS, containing a source of orthogonal magnetic fields directed parallel to the film plane, made in the form of two double-circuit inductance coils, and a source of magnetic field directed in the normal direction to the plane of the film that, in order to reduce power consumption, it contains two magnetic flux concentrators made in the form of a magnetic circuit of materials with high magnetic permeability, for example, ferrite, located one above the other, on the poles of the magnetic cores are placed the inductance coils of the source of orthogonal magnetic fields directed parallel to the plane of the film, the poles of the lower magnetic circuit are displaced in space by 90 ° relative to the poles of the upper magnetic circuit and are equipped with tips, in which grooves are made for film placement. FIG. /