SU670969A1 - Record carrier - Google Patents

Description

one

The invention relates to the field of instrumentation and can be used as a recording medium in various optical equipment.

A recording medium operating in the optical band is known, with which it is possible to record optical information of various purposes.

A recording medium of this nature does not allow, however, to register information in a sufficiently wide range of optical rays, which limits its purpose and operation possibilities.

The closest to the described invention is a recording medium containing a layer of alkali-halide crystal with activator centers in the form of negative anions of mercury-like ions, which are formed next to the cationic impurity of an alkali metal.

The disadvantage of such a carrier should be attributed to its insufficiently high efficiency of analog recording of optical information with ultraviolet light in a wide spectral range.

The aim of the invention is to increase the efficiency of analog recording of optical information with ultraviolet light in a wide spectral range.

This goal is achieved by inserting a layer in the form of spectral radiation in the absorption band of the anionic antiquator absorption band into the recording medium.

transformer. Additionally, this goal is solved in that the introduced layer is made of sodium salicylate.

The drawing shows the arrangement of the layers in the proposed recording medium.

Layer 1 is made in the form of a spectral transformer with a radiation spectrum in the nose at which an anionic antiquator is absorbed, layer 2 is located to the right of it, which is storing

by layer. The node position 3 indicates the direction of arrival of the optical recording information.

Layer 1, which is a spectral transformer, can be

a cathodoluminophore manufactured, for example, from salicylate sodium. This layer has a radiation spectrum in the absorption band of the anionic antiquator and an excitation spectrum that is in a wide range of ultraviolet regions and has a constant quantum efficiency over the entire range of recorded information. Layer 2, which is the storage layer, consists of an alkali-halide crystal, for example, of cesium iodide with activator centers in the form of negative anions of mercury-like ions from a number of metals: gold, silver, copper, etc.

When exposed to direction 3 of light in layer 1, a luminescence occurs due to its excitation. As a result, energy storage occurs in layer 2, and then the recording spectral region is determined by the luminescence excitation spectrum of the cathode luminophor. But since layer 1 possesses a constant quantum efficiency over the spectrum, regardless of the region of action of ultraviolet light, during recording, it is transformed into visible light of a single spectral composition.

Thus, when using the described recording medium, there is no need to convert the resulting spectrum into the visible one, which makes it (carrier)

suitable for use in the whole range of optical recording equipment.

Claims (2)

1. A recording medium containing a layer of an alkali halide crystal with activator centers in the form of negative anions of a rt-like ion formed near an cationic impurity of an alkali metal, characterized in that in order to increase the efficiency of analog recording of optical information with ultraviolet light in a wide spectral range , a layer in the form of a spectral transformer is introduced in it having a radiation spectrum in the absorption band of the anionic antiquator. 2. The recording medium of claim 1, wherein the injected layer is made of sodium salicylate.