DE1154825B - Method and device for reproducing signals recorded on storage media, in particular image signals, with the aid of electron beams - Google Patents

Description

Method and device for playing back items recorded on storage media Signals, in particular image signals, with the aid of electron beams The invention relates to a method for reproducing signals in the form of a signal pattern can be generated on storage media. There are already a number of procedures for Generation of two-dimensional signal patterns on storage media known where the signal pattern through physical changes on the surface of the storage medium is pictured.

In the known superorthicon tube, the signal pattern consists of one electrostatic charge image produced by a slow speed electron beam is scanned, the existing charges being removed or discharged. With these tubes, a so-called field network is preferably used, through which a homogeneous field is generated in front of the storage area, so that disturbances of the leadership of the scanning electron beam through the electrostatic fields of the signal charges be avoided. In another method, a homogeneous electrostatic charge made in a glow discharge and from this creates an electrostatic charge image by partially removing charges generated. This charge image is made visible by dusting a colored powder and fixed by gluing the color particles to the surface of the medium. To Another storage method is a plastic film covered with an iron oxide layer passed by an electromagnet excited with a signal modulation and thereby creates a magnetic pattern on the surface of the storage layer. In the end also became an insulating surface with a modulated electron beam scanned by such energy that charges are deposited on a surface layer were, which in connection with an electrically conductive layer strong forces exert on the surface. After that, the plastic surface is heated by heating provided with very fine wrinkles corresponding to the modulation of the electron beam. This so-called thermoplastic process creates a signal pattern in the form of a surface image of very fine undulating depressions and Increases.

In these and similar processes, there is often a reproduction process desired, which does not change the existing signal pattern and at the same time with purely electrical means works. As an ideal means of scanning a storage medium the electron beam is known.

One has also already made use of the magnetic storage method mentioned above disclosed a reproduction method in which with a scanning electron beam fast electrons directed onto a line grid of fine magnetic pole pieces will. Due to the deflecting effect of the fields of the pole shoe grid, which with the magnetic storage layer is in contact, the electrons of the primary beam should or one of them released secondary electron beam in one of the magnetic Signal strength can be distributed accordingly between two collecting electrodes. The production of such a fine pole shoe grid in connection with the collecting electrodes however, it is a technologically very difficult task. moreover is the method because of the use of a fast electron beam and the strong velocity spread of the secondary electrons relatively less sensitive. Also with electron beams uses a different method for recording and reproducing signals to which a number of capacitors made of ferroelectric or piezoelectric material are constructed in a special way to influence an electron beam or to be influenced by it. In this process, too, is the production of a Grid of capacitors difficult and cumbersome, influencing the electron beam little sensitive due to the capacitors and the evaluation here with the help an ultrasonic generator is to be made, relatively cumbersome.

In other methods, the rendering of the images is essential on the use of mechanical or limited optical means. For example, this can be generated by the electrostatic attachment of paint powder Image can be scanned with a wandering point of light, the magnetic image with a mechanically moved transducer element and the thermoplastic image as well with a wandering point of light, from which light fluctuations with the help of streak optics are derived, the electrical signals in a secondary electron multiplier can generate.

The invention is based on the object of specifying a method which can be used in a variety of ways to play back the items entered on the storage media Signal pattern is suitable and does not change this signal pattern. Such a procedure would z. B. in the electrostatic charge patterns of the Superorthikonröhren Open up the possibility of a long-term integration of the light radiation from an electrostatic charge image generated by a very weak light source and to be scanned without deletion and thus made visible. With the other procedures it would have the advantage of having the diverse records with a To be able to reproduce electron tubes and thus the difficulties of mechanical or to overcome optical scanning. This advantage would be particularly evident in the case of the thermoplastic, the color powder process and the magnetic tape process claim for which the recording has not been or is only very imperfect could be done with an electron beam.

Electron beam scanning is used to practice the invention using a known per se, in front of the surface of the storage layer arranged network as well as one also known per se on the storage layer approximately perpendicular magnetic field used. The procedure for playing Signals registered on storage media that are generated by charging or physical Changes to the surface layer of the storage medium are generated with the help of slow electron beams, which scan the storage area and thereby are modulated, is that according to the invention the field strengths of the electrostatic Braking field and the magnetic field in relation to the electron speed of the scanning beam are dimensioned so that the distance between a belly and a node of the electron beam in the space between the storage layer and the network is equal to the distance between the network and the storage layer, and the speed of the electron beam is chosen so that the electrons do not enter the storage layer reach, but turn back immediately before it. The special advantages of the Invention exist in addition to the applicability of this method for reproduction differently stored signals mainly in the fact that no special grid from auxiliary electrodes or pole pieces or capacitors to derive the signals is needed, but only a fine-meshed network of the type that is required for Superorthicon tubes have long been used. The resolution can be because of the delicacy this network can be very large. In addition, the sensitivity of the signal generation extraordinary because of the use of electrons with zero velocity high. It also reverses the electrons before touching the storage layers ensures that the storage layer is not changed by the scanning process will.

For a further understanding of the invention, reference is made to what is known per se Principle for signal generation in the Feldnetzorthikon pointed out. When operating such Tubes have been shown that certain operating parameters for the electric field between the network and the storage electrode as well as certain magnetic field strengths cannot be used because strong moire-like stripes then appear in the picture, which in a certain Periodicity, which is great compared to that of the picture elements, occur and again disappear. A closer examination has now shown that in this mode of operation a mapping of the meshes of the field net takes place on itself. In the invention however, it is precisely this setting of the operating data that is used.

In further investigation it was also found that with such slow Electron speeds at which the beam cannot reach the grid, the electrostatic charge image of the storage screen becomes clearly visible. These Fact led to the realization that it is possible to build up electrostatic charges and to make physical changes of the surface visible without the Electron beam touches the surface. The explanation of this fact exists in the fact that the bundles of the net which are hidden by many meshes of the net penetrating electron beam in the braking field between the network and the storage layer focused on the surface of the storage medium under the action of the magnetic field will. You will therefore only get back when you are physically completely homogeneous Surface practically on an undisturbed path of the same type through the holes of the network back into the space between the network and the beam generation system. Unless but on the surface there is a physical change that takes place in a magnetic one or electrostatic disturbance or in a waviness of the surface or in the If there is an accumulation of small particles, such as color particles, the image will be of the individual electron beams penetrating the network are disturbed, so that not more all electrons return through the network, but partly from the Net bars are caught away. By using a mesh with a coverage factor of about SO 1 / o can be achieved that a strong modulation by slight Disturbances of the storing surface is achieved. The reproduction of the modulation through an electron beam can with the help of a secondary electron amplifier can be achieved according to the well-known super-orthicontology. So if then as a storing Medium a moving magnetic tape is used on which a magnetic Charge image is generated, this can be done when passing the scanning electron beam can be reproduced without changing the surface.

Since it is in the scanning of the moving, z. B. tape-shaped storage medium The storage medium can only be used to reproduce a single line Guide over rollers and either over the net with a concentric curvature Arch the role or even execute it. In this case you can adjust the modulation sharpness improve by having a focusing line across the line cylindrical Field between the network and the storage medium is created.

In the following an embodiment of the invention is now on hand 1 to 3 described in more detail. 1 shows a schematic representation of these the imaging ratios of the electrons when using the method according to the invention, FIG. 2 shows an enlarged illustration of part of FIG. 1, FIG. 3 shows an electron beam device to carry out the procedure.

In Fig. 1 is a film made of a tape-shaped plastic, which on its upper level with a metal layer 2 and on this in turn with one thin layer of lacquer 3 is provided from an easily melting lacquer. In this Lacquer layers are made by a method known per se with the help of an electron beam fine undulating pits and bumps have been created that form a signal pattern represent. Such depressions and elevations are indicated at 4. Furthermore is a network 5 is shown, which has openings 6. This network is owned by one scanning electron beam is applied, which is indicated at 7. The electrons this beam can penetrate the network in the openings 6 and are in the electromagnetic field between the electrode 2 and the network 5 focused, wherein half the node length of these bundles in the braking field is chosen to be equal to the network spacing will. If the focus of this sub-bundle with a bump or physical Disturbance of the surface meets, then the electrons at this disturbance, for example as a result of the change in the electrical or magnetic properties that prevail there Field or the change in the surface shape of the material of the layer 3, scattered and on the way back to the network 5, they can no longer use the same undisturbed paths caught back. They therefore partly fall on the webs of the network and are there derived. Such disturbed paths are indicated by dotted lines 8 in FIG. 1.

How such a disturbance can look individually is shown in Fig. 2 explained in more detail. Due to the undulating deformation on the surface 3 4 results in a change in the normally homogeneous field due to the fact that the negative voltage on the metallization 2 positive charges in the valleys of the Wave mountain 4 and negative charges due to the electrical polarization on the Peaks are influenced. The potential lines between the grid 6 and the surface of the storage medium are therefore changed in a wave-like manner, which affects the propagation of the electrons decelerated to almost zero speed in front of the storage layer acts as a strong disorder. The resulting deflection is due to the tracks 8 indicated. In a similar way, a disturbance of the electron orbits occurs when the physical homogeneity of the surface due to local fluctuations in magnetic field strength or physically by a substance applied, for example, by the xerographic process is changed.

In Fig. 3 is now an arrangement for performing the invention Method shown in a schematically simplified representation. In this figure FIG. 9 shows a vacuum vessel into which a storage belt is held via locks 10 and 11 1 is introduced or carried out with the aid of rollers 12. In the housing is an electron beam system in the manner of an orthicon system with a cathode 13 and a surrounding secondary amplifier system 14, which the returning Catches electrons. Furthermore, an anode 15 is provided which is connected to the network 16 directly can be connected. This network 16 corresponds to the network shown in FIGS 5. Similar to the known orthotic system, the electrode arrangement is from a focusing and deflection system 17 surrounded, the focusing field practical should extend to the space between the network and storage tape 1. A Auxiliary reel 17 on the other side of the storage tape attached to the magnetic Adjust the field strength optimally. The deflection coils 18 may need im In contrast to the normal image orthicon version, only a line-by-line deflection to effect transversely to the direction of movement of the tape, as the other decomposition component can be achieved by moving the belt. For the operation of the system, the Tape transported at a speed corresponding to the desired breakdown and the electric and magnetic field strength in the space between the network 16 and the storage area of the tape 1 according to the calculable imaging condition, that the distance between the belly and the nodes should be equal to the distance between the net. the signal sequence obtained from the scanning of the signal pattern, e.g. B. a television signal, can then from the output electrode of the secondary amplifier 14 from terminal 19 be removed.

The theoretical relationship between the distance between the belly and the node can be derived from the well-known formula for the first node length a in the homogeneous braking field can be removed. Here, B is the magnetic field strength in Gauss and U is the speed of the electrons penetrating the network in electron volts, and k is approximately the same An expedient mode of operation of the arrangement according to FIG. 3 is that the magnetic tape itself is placed at a zero point of the magnetic field, namely at a simple zero point. This is essential because, on the one hand, magnetization of the band by the focusing field is undesirable, but on the other hand, a field must be present in the hold of the electrons in order to keep the forces of the space charge in equilibrium. This is best done with a simple zero point of the magnetic field and z. B. achieved in that the coils 20 and 21 are flowed through in opposite directions by the current.

For the intended scanning of the magnetic tape with slow electrons, the following conditions are advantageously also met. The magnetic field strength is selected so that between the tilting center, which one has to think about in the center of gravity of the coils 18, and the magnetic tape 1, there is at least one intermediate image or node. Between the magnetic tape and the intermediate image there is an area that is mapped onto itself by the returning electrons. The network 16, which is essential for the imaging mechanism, must be placed in this plane. If the magnetic field is chosen so that an intermediate image is created, the tilting center does not necessarily have to be in the magnetic field, as is a necessary condition for the superorthicon. You therefore have more freedom in choosing the position of the tilt field. As seen from the magnetic tape, the tilting center must be placed in the second focal point on the object side. This fulfills a second condition for vertical landing. 10

Claims (10)

PATENT CLAIMS: 1. Method of reproducing in a storage layer stored signals, in particular image signals, due to the reflection of electrons of a slow scanning beam, with a network arranged in front of the storage layer is which, possibly in conjunction with one on the other side of the storage layer located counter electrode, is used to generate a braking field and where in front of the storage layer generates a magnetic field that is practically perpendicular to it is, characterized in that the field strengths of both fields in relation to the Electron speed of the beam are such that in the braking field the distance between the belly and the node of the electron beam due to the focusing effect these fields approximately equal to the distance between the mesh and the surface of the storing medium and that the potential of the cathode of the beam system in relation to the potential of the storage electrode is chosen so that the beam reverses without charge exchange immediately in front of the surface of the storage electrode. 2. The method according to claim 1, characterized in that the coverage factor of the Network is about 50%. 3. The method according to claim 1 or 2, characterized in that that the net spacing is large compared to the net openings. 4. The method according to claim 1 to 3, characterized in that the network and / or the surface of the storage medium are cylindrically curved. 5. The method according to any one of the preceding claims, characterized in that the storage layer is on a band-shaped carrier is located, which is transported perpendicular to the movement of the scanning beam. 6. The method according to claim 5, characterized in that the storage tape is a magnetic tape is. 7. The method according to claim 5, characterized in that the storage tape is a memory tape labeled according to the known thermoplastic process. B. Method according to claim 5, characterized in that the tape according to the known Is labeled Xerofax. 9. Device for carrying out the procedure according to one of claims 1 to 8, characterized by a beam generation system according to Kind of a superorthicon system with a secondary electron multiplier, through an evacuated one Housing with openings for introducing and removing the tape-shaped storage medium and by means of which the electric and magnetic fields between a network perpendicular to the electron beam and traversed by it and the storage tape parallel to the network according to the conditions of claim 1 can be set. 10. The method according to claim 6, characterized characterized in that the magnetic field strength of the focusing field in the band plane is one Has first order zero. Publications considered: German patent specification No. 758,933; German Auslegeschriften Nos. 1034 684, 1075143; Austrian patent specification No. 183 802; U.S. Patent Nos. 2,793,288, 2,879,422, 2,900,443, 2,857,458; "Kino-Technik" magazine, No. 8, 1960, pages 224 to 227.