WO2009025581A1

WO2009025581A1 - Magnetic field image producing device

Info

Publication number: WO2009025581A1
Application number: PCT/RU2008/000469
Authority: WO
Inventors: Nikolay Stepanovich Neustroev
Original assignee: Gusev, Mikhail Yurievich
Priority date: 2007-08-17
Filing date: 2008-07-17
Publication date: 2009-02-26

Abstract

The invention relates to measurement of variable and constant quantities of magnetic fields and can be used for producing the image of the magnetic field of the studied object. The inventive device for producing a magnetic field image comprises a magneto-optical indicator plate, a polarised light source and an analyser for producing the magnetic field image, wherein the magneto-optical indicator plate is connected to a transparent substrate to form a sample stage for placing the studied object thereon, the polarised light source is positioned in such a way that it is enabled to illuminate the plate from the bottom and the light which is reflected from the plate and carries the magnetic field image, projects the magnetic field image with the aid of a mirror towards a viewer located above or at the side of the sample stage. Said invention makes it possible to arrange all the devices under the sample stage and to study the magnetic image at the same time and place.

Description

MAGNETIC FIELD IMAGE DEVICE

Technical field

The utility model relates to the field of measurements of variable and constant values of magnetic fields and can be used to obtain an image of the magnetic field of the object under study.

A device is known from the prior art in which, using a magneto-optical indicator plate, an image of the magnetic field of the object under study is obtained, for which an indicator plate is placed directly above the object of study and illuminated from above by a source of polarized light, and from above, the plate is observed in reflected light using an analyzer (RU 1499293 , MKI GOlN 21/21, published on 07.08.89). The dimensions of the device, including the indicator plate, the polarized light source, the analyzer and the supporting structure, are significantly larger than the field of view and, accordingly, the image details. In the study of small objects, the device obscures the object of study from the observer, which complicates the manipulation and positioning of the object.

SUMMARY OF THE INVENTION The task to which the utility model is directed is to provide improved operating convenience by simplifying the process of positioning research objects having a complex configuration and / or small size, as well as ensuring the unidirectional movement of the research object and the resulting magneto-optical image when moving the object during the study .

To solve the problem and achieve a technical result in a known device for acquiring a magnetic field image, including a magneto-optical indicator plate of reflected light, a polarized light source and an analyzer providing an image of a magnetic field, a magneto-optical indicator plate is connected to a transparent substrate to form a stage for

SUBSTITUTE SHEET (RULE 26) located on top of the object of study, while the source of polarized light is installed with the possibility of illuminating the plate from below, and the light reflected from the plate, carrying the image of the magnetic field, using a mirror, projects this image of the magnetic field toward the observer located above or to the side of the object table .

There are other possible embodiments of the utility model, according to which it is necessary that:

- it would be equipped with a television camera located on top or side of the mirror and connected to the monitor to observe the image of the magnetic field;

- the space in the path of light between the polarizer and the analyzer would be filled with a medium with a refractive index in excess of 1.33.

The indicated features of the utility model are essential and interconnected by a causal relationship with the formation of a set of essential features sufficient to achieve a technical result, namely, in the proposed desktop device, the indicator plate connected to a rigid transparent substrate forms an object table for placement on top of it on the indicator plate of the object of study; the observer may be located above or to the side of the stage; a polarized light source illuminates the plate from below. The light reflected from the plate (containing the image of the magnetic field) is reflected through the mirror towards the observer. Thus, the observer can simultaneously observe both the position of the object relative to the device and the image of its magnetic field. The synchronization and unidirectional movements of the object and image also facilitate manipulations.

A useful model is a device for acquiring an image of a magnetic field, which is illustrated by a specific example of implementation, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving this set of essential features of a given technical result.

SUBSTITUTE SHEET (RULE 26) Brief Description of the Drawings

In FIG. 1 shows a general view of a device for acquiring an image of a magnetic field.

BEST MODE FOR CARRYING OUT THE INVENTION According to a utility model, a device for acquiring a magnetic field image includes a magneto-optical indicator plate 1 of reflected light, a polarized light source 2, consisting in particular of a light source 3 and a polarizer 4. After reflection from the magneto-optical indicator plate 1, a light flux is located an analyzer 5 that provides a magnetic field image.

As the light source 3 can be used natural or artificial lighting.

The magneto-optical indicator plate 1 is connected to a transparent substrate 6 with the formation of a rigid object stage 7 for placement on it from above the object of study 8.

The polarized light source 2 is installed with the possibility of illuminating the plate 1 from below, and the light reflected from the plate 1 carrying the image of the magnetic field, using the mirror 9, projects this image of the magnetic field in the direction of the observer located above or to the side of the object table.

In order to improve ease of use, the device can be equipped with a camera (not shown in the drawing) located above or to the side of the mirror 9 and connected to the monitor for observing the magnetic field image. To improve image quality, the space in the path of light between the polarizer 4 and the analyzer 5 can be filled with a transparent medium 11 with a refractive index in excess of 1.33.

The device operates as follows.

In the initial state, i.e. until the object of study 8, the magnetic field source, is located on the stage 7, the magneto-optical indicator plate is homogeneous, i.e. in a zero, magnetic field and its SUBSTITUTE SHEET (RULE 26) optical (polarization-active) properties are uniform over the entire area.

When the plate 1 is illuminated with uniform polarizing light, the properties of the light beam after reflection from the plate 1 remain uniform over the entire cross section of the light beam. Passing through the analyzer 5, the uniform beam of light remains uniform, i.e. observer 10 observes a uniform (monotonous) illumination in the mirror without any image.

Next, we place the studied object 8 on the stage 7, given that all the equipment is located under the table, this is easy and convenient. The studied object 8 is placed directly on the magneto-optical indicator plate 1 of the reflected light, visually monitoring its position. If object 8 creates an inhomogeneous magnetic field (for example, near the edge of a magnetized object), then this inhomogeneous magnetic field, penetrating the volume of the magneto-optical indicator plate 1 does not alter its optical (polarization-active) properties over the area of plate 1. In this case, the reflected beam light becomes inhomogeneous (polarized). The analyzer 5 turns this heterogeneity into an intensity heterogeneity, i.e. in the mirror 9, an image of the magnetic field of the object under study appears 8. Moving the object 8 of the study on the stage 7, visually controlling a change in its position in space, a corresponding change in the positions of the details of the image of the magnetic field is observed in the mirror 9 or on the monitor (not shown in the drawing) .

It is essential that the device provides unidirectional movement of the object of study and the resulting magneto-optical image in the process of projection, while it is possible to simultaneously observe the object of study and the image of its magnetic field.

SUBSTITUTE SHEET (RULE 26)

Claims

Utility Model Formula

1. A device for acquiring a magnetic field image, including a magneto-optical indicator plate of reflected light, a polarized light source and an analyzer, characterized in that the magneto-optical indicator plate is connected to a transparent substrate with the formation of a stage for placing it on top of the object of study, while the source of polarized light installed with the possibility of lighting the plate from below, and the light reflected from the plate, carrying the image of the magnetic field, using a mirror, etc. Yetzira this image magnetic field in the direction of the observer, are placed on top or on the side of the object table.

2. The device according to .1, characterized in that it is equipped with a camera located on top or side of the mirror and connected to the monitor to observe the image of the magnetic field.

3. The device according to .1, characterized in that the space in the path of light between the polarizer and the analyzer is filled with a medium with a refractive index in excess of 1.33.

SUBSTITUTE SHEET (RULE 26)