DE3315011A1 - ELECTRON TUBES WITH LUMINAIRE - Google Patents

Description

Licentia Patent-Verwältungs-GmbH PTL-UL / Am / eng

Theodor-Stern-Kai 1 UL 83/59

6000 Frankfurt (Main) 7o

description

Electron tube with fluorescent screen

The present invention relates to an electron tube with a fluorescent screen and cathode, in particular an image intensifier tube with photocathode and luminescent screen, the phosphor layer on the surface facing the photocathode has an aluminum layer and at least one further layer.

It is known to increase the contrast of electrons Luminescent screens on the surface of the phosphor layer facing the electrons have a film to apply like aluminum layer with a thickness of about 200 nm. It is also known on such fluorescent screens in addition another layer, e.g. B. made of carbon or silicon oxide and magnesium fluoride on over.

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With image intensifier tubes, especially those with high l

sensitive cathodes, such as B. multi-alkali cathodes or Gallium arsenide photocathodes and image intensifier tubes With high acceleration voltages, damage to the photocathodes often occurs, which is caused by high energy positive ions impacting the photocathode are produced. These positive ions are obviously created z. B. in tubes with electron-optical imaging in the area of the crossover, as there due to the high electron density the probability of ionization is greatest. The positive ions are due to their larger mass accelerated back to the photocathode without deflection and hit the center there.

The present invention is based on the problem of reducing the risk of damage to the cathode, in particular a Photocathode, reduced by positive ions.

According to the invention, this object is achieved by 'that this further layer is a metal layer made of tantalum, titanium and / or in particular zirconium with a thickness of at most one fifth the thickness of the aluminum layer.

A zirconium layer with a thickness of about 50 to 250 Angstrom units is preferred on the free surface of the Vapor-deposited aluminum layer.

Ea has been shown that the presence of a thin metal layer, in particular a zirconium layer in the area of the aluminum layer, apparently the leakage and / or the formation of gas in the area of the luminescent screen can be largely prevented, so that damage

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the photocathode largely avoided by ion bombardment can be. The reduction in the energy caused by this metal layer in the phosphor layer penetrating electrons can be kept within limits by a correspondingly thin layer thickness of this metal layer will. If necessary, the aluminum layer can also be reduced a little.

The invention is described below on the basis of the preferred exemplary embodiment shown in FIGS. 1 and 2 explained in more detail.

FIG. 1 shows schematically in cross section an image intensifier tube 1 with a luminescent screen 3 and a photocathode 5, both of which are on a transparent support 2 or 2. are upset. The transparent supports 2 and 4 preferably consist of a pane of glass or a pane of fiberglass.

FIG. 2 shows an enlarged section of the fluorescent screen 3, which is on a concave surface of a fiberglass pane 4 is applied. The phosphor screen 3 consists of a phosphor layer 31, one on this phosphor layer 31 located aluminum layer 32 of about 200 nm thickness and the metal layer 33 according to the invention, on the surface of the luminescent screen facing the photocathode 3. It may be useful to use the aluminum layer to evaporate in two stages, then im In connection with the second evaporation stage, this is also preferred consisting of zirconium metal layer 33 is evaporated. It can also be useful to apply this zirconium layer 33 to evaporate a thin aluminum layer again, so that the metal layer 33 in the two-part Aluminum layer 32 is embedded.

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According to another. Embodiment can be useful be, the metal material at the same time at least with to evaporate part of the aluminum for the aluminum layer 32. It can also be useful if necessary, the Metal layer 33 between aluminum layer 32 and the phosphor layer 31 to be attached.

Although the invention is particularly advantageous for tubes with large-area cathodes, in particular with sensitive ones Photocathodes can also be used for tubes with "point-focused" electron beams and smaller areas Cathode bring advantages. ...

Claims (6)

Licentia Patent-Verwaltungs-GmbH PTL-UL / Am / deu Theodor-Stern-Kai 1 UL 83/59 6000 Frankfurt (Main) 70 patent claims 1. Electron tube with luminescent screen and cathode, in particular image intensifier tube with photocathode and luminescent screen, on the · facing surface and at least still has a further layer whose phosphor layer of the cathode, an aluminum layer, characterized labeled in · "ze leans, that this further layer is a metal layer (33 ) made of tantalum, titanium and / or in particular zirconium with a thickness of at most one fifth of the thickness of the aluminum layer. 2. Image intensifier tube according to claim 1, characterized in that that the metal layer (33) has a thickness of 1 nm to 50 nm, in particular 5 nm to 25 nm. 3. image intensifier tube according to claim 1 or claim 2, characterized in that the metal layer (33) on the the surface of the aluminum layer (32) facing the cathode (5) is applied. - 2 - 'UL 83/59 4. image intensifier tube according to claim 1 or claim 2, characterized in that the metal layer in the Alurainium layer (32) is embedded. 5. Bildvestärkerröhre according to claim 1 or claim 2, characterized in that the metal layer between the phosphor layer (31) and the aluminum layer (32) is arranged. 6. image intensifier tube according to one of claims 1 to 5, characterized in that the metal layer (33) is vapor-deposited.