DE1026442B - Process for decolorizing alkali halide crystals discolored by electron bombardment, which are arranged on the screen of a cathode ray tube, and arrangement for carrying out the process - Google Patents

Description

GERMAN

The invention relates to a process for decolorizing alkali halide crystals discolored by electron bombardment, placed on the screen of a cathode ray tube by applying a voltage.

It is known that alkali halide crystals discolored by electron bombardment can be removed by heating or discolour again under strong light irradiation. This decolorization process can be achieved by applying a Accelerate tension. They are arrangements with a screen carrying an alkali halide layer known where to apply a voltage for discoloration on both sides of the alkali halide layer a conductive layer is applied. The use of two such conductive Layering means a certain amount of effort and, under certain circumstances, this also affects the color sensitivity the layer is adversely affected.

According to the invention, with the help of secondary electrons, the voltage between the two. pages of the alkali halide crystals, namely their surface and one on their other side Conductive layer, generated.

To generate the voltage, the alkali halide crystals are bombarded with electrons that are so slow that that as a result no or only an insignificant discoloration is produced.

The electron speed can be chosen so that the secondary emission factor is smaller or is greater than 1.

If the secondary emission factor is less than 1, the surface of the alkali-halide layer becomes charged to cathode potential.

If the secondary emission factor is greater than 1, the surface of the alkali-halide layer becomes charged positive and can be activated by a suction electrode same potential as this can be brought.

Compared to this fixed potential at the fired. The surface can be the adjacent conductive layer, for example as a base for the alkali halide layer is designed to be brought to any voltage, if only the insulation strength the halide layer is sufficiently large.

The heating which is also necessary for discoloration of the alkali halide layer can take place from the outside, by radiation or by the passage of current through the conductive layer or by the energy of the impinging electrons themselves. In order to keep the heat capacity of the alkali halide layer small, it is advantageous to use a thin carrier plate, e.g. B. mica to be used, on which the alkali halide layer and the conductive layer are vapor-deposited. The conductive layer is made of metals or semiconducting metal oxides, which, if the screen is in the see-through process for discoloration through
Electron bombardment of discolored alkali halide crystals on the screen
a cathode ray tube arranged
are, and arrangement for implementation
of the procedure

Applicant:

C. Lorenz Aktiengesellschaft,

Stuttgart-Zuffenhausen,

Hellmuth-Hirth-Str. 42

Wolfgang Berthold, Korntal,

and Dr. Jürgen Rottgardt, Stuttgart,

have been named as inventors

are to be considered, are transparent (e.g. SnO ₂ layers or W layers).

The invention will be explained in more detail using an exemplary embodiment: In the figure, 1 is the glass vessel a blue writing tube in which a carrier plate 2 is attached. On the carrier plate, z. B. made of mica, a conductive layer 3 with lead 4 and an alkali halide layer 5 (z. B. KCl) preferably applied in a polycrystalline structure. The cone of the glass vessel also contains a conductive layer 6, which acts as a suction electrode for the secondary electrons. The electron gun is located in the neck of the tube 7, which the. The writing beam for coloring the screen and the erasing beam for decolorization of the screen.

The writing and erasing beams can be generated by the same cathode, but it is advantageous to use one focus and deflected beam in the usual way for writing and an additional unfocused beam 8 of a separate cathode for Use delete. It is thus possible to erase slowly while writing, so that the The recorded process subsides over time. During the write beam a voltage difference of about 10 kV, the extinguishing beam only has a speed of a few 100 volts. In This range is the secondary emission coefficient (5> 1, so that the surface of the layer 5 is on the same potential as that of the suction layer 6

709 910/335

loads. In this case it is useful to use the electron flow to generate the secondary electrons so large that a heating of the alkali halide crystals occurs, which supports the discoloration of the layer by the stress. This Beam current can be up to a few 100 mA, depending on the acceleration of the quenching electrons.

Claims (5)

Patent claims: 1. Process for decolorizing alkali halide crystals discolored by electron bombardment, the are arranged on the screen of a cathode ray tube, by applying a voltage, thereby characterized that with the help of secondary electronics the voltage between, the two sides of the alkali halide crystals, viz its surface and a conductive layer located on its other side. 2. The method according to claim 1, characterized in that for generating the secondary electrons. slow electrons are used. 3. Arrangement for carrying out the process according to claim 1 or 2, characterized in that that a suction electrode is provided for the secondary electrons. 4. Arrangement according to claim 3, characterized in that the conductive layer is another Voltage than the suction electrode. 5. An arrangement for carrying out the process according to claim 1 or 2, characterized in that that the electron source required to generate the secondary electrons is the same as that for the writing beam is. O. arrangement according to claim 5, characterized in that that the electron current for generating the secondary electrons is chosen so large that a heating · of the alkali halide crystals occurs, which causes the discoloration of the layer by the Tension supported. Considered publications:
FTZ, 1954, issue 5, pp. 249 to 253. 1 sheet of drawings © 709 910/335 3.58