DE948614C - Image storage tubes in which the storage electrode is sprinkled with slow electrons - Google Patents

Description

It is known that the sensitivity of image storage tubes of the supericonoscope type can be increased by sprinkling the storage electrode with slow electrons. This increase in sensitivity is explained by the fact that the secondary electrons released by the scanning beam are extracted more completely when the The potential of the storage electrode surface is made negative by a few volts with respect to the anode will. This can be achieved by using a constant exposure of one the photocathode opposite the storage electrode, the potential of which is a few volts more negative as the suction electrode is held, a stream of photoelectrons is applied to the storage electrode directs.

It has now been shown that this measure with medium brightnesses of the 'to be transmitted Images brings about an increase in sensitivity about a factor of 2, but that at very low brightness levels, no significant improvement is achieved. This can be explained as follows Part of the amount of light thrown onto the auxiliary photocathode is reflected inside the tube on the image photocathode, where it triggers a diffuse The current of photoelectrons gives rise to. This electron flow now reaches the storage electrode, reverses the trickle effect and reduces the relative sensitivity because it does Shifts the potential of the storage electrode in the positive direction.

If the photocathode has a sensitivity of ΑμΑ / L = f _x (V) - and the trickle cathode has a sensitivity BμΑ / L = f _z (V), is the secondary emission factor on grid J? and if the fraction ρ of the luminous flux L required for trickling arrives at the photocathode, then p · L- A · S must be small compared to L · B. This ratio can be kept small by constructive measures.

ίο It is already known that action has been taken must be to avoid the emergence of additional Sförspanntmgen, z. B. as a result of light reflections the main photocathode to prevent. A tube with an auxiliary photocathode has also been operated in such a way that that the auxiliary photocathode is intermittent during only the tilt back times of the scanning beam is illuminated. It is not suitable for the continuous mode of operation considered here Storage, as the storage is interrupted when the mosaic is recharged in a pulsed manner will. This type of lighting has been suggested primarily for the transmission of films. In pursuit of a different line of thought, iconoscopes with photomosaic have the am Auxiliary cathodes attached to the edge of the photomosaic are illuminated with the help of mirrors in such a way that that the light hits the photo layer from the inside.

In contrast to the known arrangements, the present invention is based on the knowledge assumed that it is not sufficient for a supericonoscope with an auxiliary cathode, the immediate To prevent the light exciting the auxiliary cathode from striking the main photocathode, but that also the scattered light the. Significantly affect the sensitivity of the arrangement can.

According to the invention in image storage tubes of the supericonoscope type, in which an auxiliary photocathode measures are provided to apply slow electrons to the storage electrode which prevent light from the light source exciting the auxiliary photocathode reaches the storage electrode and from there the main photocathode in the form of scattered light can stimulate.

To carry out these measures, a semi-permeable auxiliary photocathode can be used the light used to trigger the photoelectrons with the help of mirrors or lenses be conducted so that it is the photo layer in one of the inside of the image storage tube to the outside trending direction interspersed. For this purpose, the mirror can advantageously be used to deflect the outside The tube generated light on the auxiliary photocathode through a metallic coating a cylindrical glass tube fixed in the image converter part of the tube and the Wall covering also serve as an anode for the main photocathode. Another expedient measure within the meaning of the invention is that the on the inside of the tube for the purpose of Generation of acceleration and collecting electrodes applied metal layers with a blackening coating, the z. B. is generated by atomizing chromium in a gas discharge, covered so that the scattered light is absorbed. Likewise, according to the further invention the auxiliary photocathode has an increased spectral sensitivity in the red and ultra-red wavelength region have, while the main photocathode has a maximum sensitivity in the green or in the blue spectral region. In this case, the auxiliary photocathode is then irradiated with a light, to which the main photocathode is insensitive.

An exemplary embodiment is explained in more detail with reference to the drawing. In the drawing is 1 a vessel of an image storage tube. In this vessel are a photocathode 2 and in the pre-image part an acceleration anode 3 attached. On the side of the storage electrode 4 there is one Collector electrode 5, which, like the acceleration anode, is a glass cylinder with internal metallization is formed and fused to the vessel wall at two opposite points. In addition, the tube contains an auxiliary photocathode 6, from which slow photoelectrons thrown onto the storage electrode 4. will. In order to prevent that which illuminates the photocathode Light from the light source 7 also falls on the primary cathode 2, which normally passes through If internal reflection happens on the mirrored parts of the tube, the acceleration anode 3 provided at its end facing the storage electrode with such an extension that a on this extension directed light beam z. B. assumes a light bulb 7 on the Inner mirroring of the glass body is reflected and thrown onto the auxiliary photocathode 6. the Auxiliary cathode 6 is made semi-permeable, so that the unabsorbed part of the light through the tube wall falls outwards and can therefore no longer reach the photocathode 2. To the Avoid unintentional reflections on the metal shields of electrodes 3 and 5 this expediently a light-absorbing layer, for. B. one, by atomization in a noble gas discharge generated chrome layer attached. It is also advantageous to use the photocathode 6 rotsensitive-Hch to make (e.g. by using the well-known silver oxide-cesitime layers) and with a red light source, e.g. B. one or more neon lamps or cesium vapor lamps to illuminate.

Claims (5)

PATENT CLAIMS: I. Image storage tube of the supericonoscope type, in which an auxiliary photocathode for irrigation iao the storage electrode is provided with slow electrons and this auxiliary photocathode and the auxiliary light source used to illuminate them are arranged in such a way that the Main photocathode covered against the penetrating light of the auxiliary light source in the tube - is, so that an immediate excitation of the same is avoided, z. B. by the auxiliary cathode at the transition point between the image converter part and the storage electrode enclosing part of the vessel bulb and the auxiliary light source on the outside of the image converter part surrounding circumference are arranged, characterized by the use of Measures which prevent light from ίο the light source (7) on the storage electrode arrives and from there in the form of scattered light can excite the main photocathode (2) ». 2. Image storage tube according to claim 1, characterized in that the auxiliary photocathode is semi-permeable and used to trigger the photoelectrons Light is guided with the help of mirrors or lenses in such a way that it enters the photo layer a direction extending from the inside of the image storage tube to the outside penetrates and then is absorbed. 3. image storage tube according to claim 2, characterized in that the mirror for deflection of the light generated outside the tube onto the auxiliary photocathode through a metallic coating on one of the converter part of the tube attached cylindrical glass tubes is formed and that this wall covering also serves as an anode for the main photocathode. 4. image storage tube according to one of the preceding claims, characterized in that that the on the inside of the tube for the purpose of generating acceleration and metal layers applied to collecting electrodes with a blackening coating which z. B. is generated by atomizing chromium in a gas discharge, are covered. 5. image storage tube according to one of the preceding claims, characterized in that that the auxiliary photocathode has an increased spectral sensitivity in the red and ultra-red Has a wavelength range, while the main photocathode has a maximum sensitivity in the green or in the blue spectral region, and that the auxiliary photocathode with is irradiated with a light to which the main photocathode is insensitive. Considered publications:
German Patent Nos. 866 802, 884 823; British Patent No. 566 429. 1 sheet of drawings © 509 696/334 2.56 (609 603 8. 56)