SU1029130A1 - Relief-graphical medium for recording and displaying optical information - Google Patents

Description

1 The invention relates to an information recording technique 1 by methods of electrophotography on deformable layers and can (5wTb is used in display devices and optical information processing. Relief media is known for recording and displaying optical information containing a transparent base with a photoconductor layer deposited on it transparently , a layer of active resistance and a perforated electrode, a voltage source connected to a transparent and perforated electrode, and deformable. The purpose of the invention is to simplify the design. The goal is achieved by the fact that in a relief-recording medium for recording and displaying optical information containing a transparent base with a transparent electrode sequentially deposited on it, a photo conductive layer, a layer of resistance and a perforated layer. a voltage source connected to a perforated and transparent electrodes and a deformable layer; a deformable layer is placed on a perforated electrode and covered th specularly reflective conductive film electrically connected to the electron perforated "genus. Fig. 1 is a relief pattern for recording and displaying optical information; . 2 is a section A-A in FIG. 1. The information recording and reproducing device comprises a transparent base 1 with a transparent electrode 2 sequentially deposited on it, a photo conductor layer 3, an active resistance layer k and a perforated electrode 5. deformable layer 6, for example gel. Deformed layer 6 is covered with a flexible electrically conductive reflecting film 7. Transparent electrode 2 is connected to a source of electrical energy, 8, and about and the point is connected to a perforated electrode 5 and a flexible electrically conductive reflecting film 7. 02 A device for recording and reproducing information works as follows in a way. When projecting the image on the photosemiconductor layer 3 in the light areas, the resistance of the photosemiconductor is small compared to the active resistance layer and the main part of the voltage of the electrical energy source 8 is applied to the active resistance layer 4, therefore, in the center of the holes of the perforated electrode 5 located under the illuminated sections of the photoconductive layer 3 on the surface of the active resistance layer k acts a voltage close to the voltage source Ka of electrical energy 8. By moving to the edge of the hole, the voltage on the surface of the active resistance layer decreases to zero. This achieves transverse modulation of the electric field in the plane of the perforated electrode 5- In unlit areas of the photosemiconductor layer 3, its resistance is large compared to the active resistance layer and the main part of the voltage of the electrical energy source 8 is applied to the photosemiconductor layer 3. At the center of the holes of the perforated electrode 5 the surface of the resistance layer, the voltage is close to zero, which leads to the absence of modulation of the electric field, the modulation of the electric field is also lacking between the solid surface of the perforated electrode 5 and the specularly reflecting film 7. Thus, in the plane of the perforated electrode 5, a transverse modulated electric field acts, the modulation value of which depends on the illumination level of the Photo-semiconductor layer 3- The electric field, acting on the deformable layer 6, causes the formation of a geometric relief that deforms the flexible specular film 7, corresponding to the projected image. When using solid deformable layers for the formation of deformations, it is necessary to bring them to a softened state by any of the known methods (for example, high-frequency heating. The recorded geometric relief can be reproduced in the form of an optical image using well-known slit-optics systems. to increase the quality of reproduction, since the absorption and scattering of the readout stream is reduced. In addition, the reflective film separates the readout The application of a deformable layer on a perforated electrode allows simplifying the design of the device, since spring 30 makes it necessary to maintain a small gap between the perforated electrode and the free surface of the deformed layer, which increases the recording density, reliability of the device, and This increases the recording sensitivity, since the electric field increases in intensity compared to the prototype. The device can be used in recording, reproducing and processing devices. optical information ki.

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Claims (1)

RELIEFOGRAPHIC MEDIA FOR RECORDING AND DISPLAYING OPTICAL INFORMATION, containing a transparent base with a transparent electrode, a photoconductor layer, a layer of active resistance and a hole electrode, a voltage source connected to a transparent and hole electrodes, and a deformable layer, characterized in that In order to simplify the design, the deformable layer is placed on the hole electrode and is coated with a flexible mirror-reflective conductive film electrically connected to the hole electrically electrode. 6 7 '