SU1451771A1 - Method of recording and erasing information in alkali-halide crystal - Google Patents

Abstract

The invention relates to computing technology, to systems of multiple multiple rewriting and long-term storage of optical I1 format. The purpose of the invention is to expand the field of application of the method of recording and compiling information. The method includes the operation of irradiating the crystal area with unfiltered ultraviolet and radiation, simultaneously heating to a temperature of 110-120 ° C and projecting onto it an image of the object with visible light for 5-20 minutes. Erasing the image is carried out by heating the crystal to a temperature of 550 ± 10 s for 1-2 minutes:

Description

i ate

4j

The invention relates to computing technology, in particular, to systems for multiple rewriting and long-term storage of optical information, and can be used in the field of photonics in converting, storing and controlling electronic devices, and also as a method of recording optical information in photography. , radiology, holography.

The purpose of the invention is to expand the scope of application of the method by allowing the registration of a gradation image of an object in an alkali halide crystal.

The method of recording and erasing optical information in an alkaline-halide crystal is that an alkaline-halide crystal is irradiated with ultraviolet radiation, and then an alkaline-apoid crystal is deposited to 110-120 ° C and projected onto it images with visible light for 5 -20 min, and erasure carried out by heating a white-halide crystal at 550i1 () ° C for 1-2 min

Alkali-halide single crystal plates used as a recording layer are sensitized by annealing in vapors of the matrix cation. To record the gradation image, the crystal is pre-stained by irradiating its surface with unfiltered ultraviolet radiation (wavelength range 210 - 600 nm) for 5-10 min at room temperature. At the same time, the crystal acquires a spectral density of about 0.8 (46 nm), which does not vary with time. The recording is performed by projecting the image of the object onto a heated crystal up to 110-120 s with visible light for 5-20 minutes. The boundaries of the temperature interval for recording information are determined by the activation energies of thermal and photochemical

Compiled by S.Samutsevich.

Editor E. Kopcha

Tehred L. Oliynyk

Order 7086/51 Circulation 558 Subscription

VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, YAS-35, Raushsk nab. 4/5

n 5

0

0

five

processes of transition of color centers to qualitatively different states. Thus, a decrease in the crystal temperature below 110 ° C does not allow an image to be obtained, since the crystal remains uniformly colored. Increasing the temperature to 120 s leads to a deterioration in the quality of the resulting image due to a decrease in the gradient of the optical density of the crystal.

When recording information by the proposed method, a spectral redistribution of the optical density of the crystal occurs (a peak disappears from А 465 nm and a peak appears from D 620 nm) in accordance with the intensity gradient of incident radiation in the image plane

The resulting image is maintained for a long time (more than two years in the experiment) without degrading quality. Image erasing is performed by heating the crystal for 1-2 minutes at 550 ±, after which the process of recording and erasing information can be repeated many times.

Claims (1)

Invention Formula A method of recording and erasing optical information in an alkaline galorez crystal, which consists in irradiating the alkaline halide crystal with ultraviolet radiation and erasing the image by heating the alkali halide crystal at 550 ± 10 ° C for 1-2 minutes, characterized in that areas of application of the method due to the possibility of registering a gradation image, alkaline-halide k51stins, after irradiation with ultraviolet radiation, are heated to 110-120 ° C and simultaneously projected onto a black gradation image with visible light for 5-20 min. Proofreader V. But ha