SU1030767A1 - Magneto-optical recording media - Google Patents

Description

i The invention relates to a technique of recording information on deformable data by means of electrography and can be used in the development of information display devices.

Known recording medium containing the substrate, the deformable layer deposited on it and the ferromagnetic particles of the needle-shaped form 1 dispersed in it.

The disadvantage of such a carrier is the low quality of image acquisition.

The purpose of the invention is to improve the quality of the recording.

. This goal is achieved by the fact that in a magneto-optical carrier containing a substrate, a deformable layer deposited on it and dispersed ferromagnetic particles of needle-like shape in it, the latter are made of a magnet of soft material.

In addition, a gel is used as the material of the deformable layer, while the outer surface of the latter is covered with a light-reflecting film.

The drawing shows the principle; a magneto-optical recording medium circuit.

The carrier comprises a thin rigid substrate 1, which can be made, for example, from glass or ceramic materials. On the substrate 1 an elastically deformable layer 2 is deposited, for example, a gel whose thickness is 10-20 microns. Finely magnetically flexible material 3 is introduced into the elastically deformable layer 2. The free surface of the elastically deformable layer 2 is covered

reflective flexible film 4.

On the reverse side of the substrate 1 of the magneto-optical carrier there is a means for realizing the deformation, made in the form of a multi-element head 5 connected to a source of electrical signals.

The reading of information is carried out using a luminous flux 7,

Magneto-optical media works as follows.

Multi-element magnetic head 5 when applying signals from a source b to it creates local magnetic fields in separate elements. Under the action of a magnetic field, ponderomotive electromagnetic forces arise that act on the fine material 3 in the direction of the magnetic field. When this occurs, the deformation of the surface covered with a specularly reflective film 4 of the elastically deformable layer 2. The deformation of the layer 2 leads to the formation of a geometric relief on the surface of the flexible specularly reflective film 4, the depth of which is proportional to the electrical signal.

When the signals are removed, the surface of the film 4 returns to its original state under the action of elastic forces.

Information is read from a flexible mirror film 4 of the light flux 7 using known slot systems.

The magneto-optical carrier allows to increase the response speed as a result of using a gel-like deformable layer coated with a flexible mirror-reflecting film.

Claims (2)

1.MAGNETOOPTIC NOSI- A TEL RECORDING containing a substrate, a deformable layer deposited on it and needle-shaped ferromagnetic particles dispersed in it, characterized in that, in order to improve the recording quality, the ferromagnetic particles are made of soft magnetic material. 2. The recording medium according to claim 1, characterized in that a gel is used as the material of the deformable layer, while the outer surface of the latter is covered with a reflective film.