SU1748186A1 - Optical recording carrier - Google Patents

Abstract

Usage: in optical recording. The invention: the carrier contains the following ratio of components, May. %: sodium borate glass 99.0-99.9, indium 0.1-1.0.

Description

The invention relates to the accumulation of information by optical methods and can be used as a storage cell in various optical equipment.

A known optical recording medium is a glass matrix doped with silver halides. When the carrier is irradiated with light in a certain spectral region, the absorption spectrum of the carrier changes. The disadvantage of such a carrier is the short duration / from minutes to days / storage of recorded information.

The closest in technical essence and the achieved result is a recording medium based on potassium-borate glass with sensation of impurity - indium. The composition of the recording media following, May. %:

Potassium borate

glass 99.0-99.9

Indium0,1-1,0

The disadvantage of such a carrier is a low temperature (about 300 ° C), at which the recorded information is erased

The aim of the invention is to increase the resistance of the carrier to the effects of elevated temperatures.

The goal is achieved by the fact that sodium borate glass is used as a speckle matrix in an optical recording medium consisting of a glass-matrix with an sensitive impurity of indium, and the carrier components are in the following ratios, wt%:

Katriyevo-borate

glass 99.0-99.9

Indium0,1-1,0

The impact of high-power ultraviolet radiation on the carrier leads to significant changes in the absorption and luminescence spectra, which allows reproduction in both transmitted and luminescent light. With appropriate selection of the wavelength of the reproducing radiation, visual control of the processed information is possible. In addition, depending on the wavelength of the reproduction of radiation, either an increase or a decrease in the luminescence intensity is observed.

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the irradiated area as compared to the non-irradiated areas, which expands the possibilities of using the carrier. Playback is performed by a low-power source without destroying the recorded information. The long duration of the afterglow caused by the recording beam in the carrier allows monitoring the recorded information for twenty seconds after the end of the recording without the use of a reproducing light source.

The fact that a source of powerful ultraviolet radiation is necessary for recording, causes a high noise immunity of the carrier, since the background illumination does not affect the recording process. This carrier is also very resistant to irradiation with powerful light beams that are not in the region of its sensitivity.

The storage time at room temperature is at least 1.5 years. Heating to 350 ° C does not destroy the recorded information. Erasure can be performed when heated to a temperature of at least 400 ° C, after erasing, repeated recording is possible.

By varying the composition of the glass matrix, it is possible within certain limits to change the physical properties of the carrier, for example, temperature and chemical stability.

Example. Glasses of NaaO - 66263 1 wt.% In and Na2O 2B20z 1 wt.% In / hereafter the concentration of the activator is indicated by weight of the shield / stored information recorded over 1.5 years. The synthesis took place in a quartz crucible at 1000 ° С for 1 h.

The recording was made using the fourth rap monica of a neodymium laser: a wavelength of 265 nm, a pulse duration of 13 ns, a pulse energy of about 0.5 mJ for recording and 0.005 mJ for reproduction, the optimum power density of the recording beam was 10 watts. cm2. As the radiation irradiated, changes in the optical characteristics of the carriers were recorded. Saturation

was achieved with a total irradiation dose of about 10 mJ, the optical density of the irradiated samples at a wavelength of 265 nm increased by 40%, and the luminescence quantum yield / Avoeb 265 nm / fell about 1.5 times. When luminescence is excited by radiation with a wavelength of 353 nm / or 337 nm /, an increase in the luminescence intensity is observed by a factor of 3-5, the largest changes were recorded in the long-wavelength part of the luminescence spectrum.

Glasses of composition Ma20z 6B20zO, 1 wt.%) PIMA20 2B20z 0.1 wt.% In also stored information recorded for at least 1.5 years. ,

The choice of the concentration of sensory impurity in the range of 0.1-1.0 wt.% Is due to the fact that at activator concentrations less than 0.1 wt.%, The efficiency of recording and reproduction decreases. It is not possible to manufacture high quality media with an indium concentration greater than 1.0 wt.% Due to the poor solubility of indium in sodium borate glass.

The carrier allows processing of information at higher temperatures than is possible with known materials. In addition, due to the use of soda-borate glasses as a base, the chemical resistance of the carrier increases.

Claims (1)

Invention Formula An optical recording medium consisting of a glass matrix with an ophthalmic impurity of indium, characterized in that, in order to increase the stability of the carrier to the effects of elevated temperatures, a glass boron glass is used as the glass matrix, and the carrier components are as follows ratio, wt.%: Sodium Borate glass 99.0-99.9 Indium 0.1-1.0