SU1132277A1 - Device for recording optical data containing relief-graphic medium - Google Patents

Abstract

THE DEVICE FOR RECORDING THE OPTICAL ID “JURMATION THAT IS CONTAINING RELIGROGRAPHIC MEDIA for applying a uniform electric charge on the surface of the photothermoplastic layer and the system of optical projection of information on the local areas of the carrier, so that, in order to increase the sensitivity and recording quality of the spatial separation of the informative part of the light beam from the high-energy part, controlled by heating the first photoconductor layer, it contains U means for localized illumination of the bodies, bodies from the side of the substrate at the point where optical information is recorded, while the conductive electrodes are deposited on one of the sides of the first GB of the photoconductor layer in a line of the linear structure.

Description

The invention relates to electrophotography, means of optical information processing, computer technology. A device for recording optical information is known, containing a relief carrier consisting of a transparent substrate with a series 1, but deposited on it by a first photoconductor layer with conducting electrodes5 a second photoconductor layer and photothermoplastic layer, a voltage source connected to conductive electrodes, a means for applying a uniform electric charge on the top The stability of the photothermoplastic layer and the system of optical projection of information onto local areas of the carrier 1. The disadvantages of the known device are low sensitivity and low recording quality. Since it combines the stages of exposure and manifestation and the intensity of the light beam is determined by its high-energy part, then short exposure times are used to ensure the conditions of exposure. This limits the sensitivity of the device due to the fact that the latent electrostatic image does not have time to reach the required value before softening the photoconductors on an thermoplastic layer; since the usual latency formation times in these layers are 0.5-50 ms. Reduce the intensity of the light beam by increasing the voltage applied to the first photoconductor layer; due to possible layer breakdowns, since the breakdown value of the field strength of such a photoconductor layer is E - 3-10 V / cm, and in the described device the field strength is E 9 V / 4 x X 10 cm 2.25 -10 V / cm. In addition, the photocurrent in the illuminated area of the carrier is distributed. It is uneven, since it is caused by the distribution of the light intensity in the recorded image, which leads to an uneven display of the image, that is, distortion. The purpose of the invention is to increase the sensitivity and quality of recording optical information by spatially separating the informative part of the light beam from the high energy part that controls the heating of the first photoconductor layer. To achieve this goal, a device for recording optical information, including a relief carrier consisting of a frosted substrate with a first photoconductor layer sequentially deposited on it with conductive electrodes, a second photoconductor layer and a photothermoplastic layer, is connected to a current source electrodes, a means for applying a uniform electric charge to the surface of the photothermoplastic layer and an optical projection system uu on local portions of the carrier, comprising means for. local illumination of the carrier, installed on the side of the substrate at the point where optical information is recorded, while the conductive electrodes are deposited on one of the sides of the first photoconductor Layer in the form of a linear structure. The introduction of means for additional local illumination of the carrier on the substrate side allows spatially separating the informative part of the light beam from the high-energy one that controls the heating of the photoconductor layer. The use of the line structure of the conductor electrodes allows to reduce the intensity of the energy light beam by increasing the applied voltage, since with the proposed structure of the electrodes the limiting intensity for the first photoconductor layer is reached when applying a voltage of up to 1000 V. wavelength additional illumination. so that the luminous flux is maximally absorbed in the first photoconductor layer, providing sufficient photoconductivity in it for heating and not affecting the photoconductivity of the second photoconductor layer. The separation of the light beam for the processes of exposure and manifestation makes it possible to increase the sensitivity of the device by choosing the exposure modes that are optimal for forming a latent image in a photoconductor-thermoplastic layer, as well as to ensure uniformity of the appearance of the latent image.

The drawing shows a block diagram of the proposed device.

The device consists of a relief carrier 1 containing a transparent substrate 2, a first photoconductor layer 3, linear conductive electrodes 4, a second photoconductor layer 5, a thermoplastic layer 6, a voltage source 7, means 8 for applying a uniform electric charge, an optical projection system 9 information means 10 for additional local illumination of the carrier.

PRI me R. A transparent glass plate is used as the substrate of the relaxographic support. The first CdS-CdSe photoconductor layer is applied by chemical deposition from an aqueous solution and felt in the charge, and the conductive electrodes are applied by vacuum deposition through a special mask. A layer of an organic photoconductor, for example, 9PK or PEPC with TNF, is applied onto the surface of the first photoconductor with conductive electrodes by dissolving it into a solution. After drying the photoconductor layer, a layer of thermoplastic is applied on it, for example TGSh-10, by dipping into a solution.

The recording is carried out as follows.

Install the object and reference beams on a specific area of the carrier. Then the light overlap the shutter. Next, the surface is uniformly charged, after which a uniform illumination of the carrier section from the substrate side and further exposure of the same carrier section are effected with simultaneous application of a voltage pulse to the electrode system. When testing the proposed device, a hologram of a diffuse object was recorded at the intensity of the main input light of 5 mW / cm for 1 ms and the intensity of the backlight 4 mW / cm at 546 nm. In this case, the photosensitivity is 5 µJ / cm.

The invention makes it possible to significantly increase the sensitivity of the device and the quality of the recording information due to the spatial separation of the informative part of the light beam from the high-energy heating control of the first photoconductor layer with the help of additional illumination of the carrier. In addition, the device allows the recording of information of various kinds, to be read out to the light.

4. 4.

44. 44- F 4

Claims (1)

DEVICE FOR RECORDING OPTICAL INFORMATION CONTAINING A RELAYOGRAPHIC MEDIA, consisting of a transparent substrate with a first photoconductor layer with conductive electrodes sequentially applied to it, a second photoconductor layer and a photothermoplastic layer, a voltage source connected to an electrically conductive electrode to conductive charge layer and the system of optical projection of information on local areas of the medium, It is due to the fact that, in order to increase the sensitivity and quality of recording by spatial separation of the informative part of the light beam from the high-energy part that controls the heating of the first photoconductor layer, it contains C means for local illumination of the carrier installed on the substrate side, in the place of recording optical information, while the conductive electrodes are deposited on one of the sides of the first photoconductor layer in the form of a line structure.