DE737845C - Process for the imaging of recordings from fluorescent screens with a long afterglow period using lumiophores, the luminous color of which is dependent on the flow of electrons - Google Patents

Description

Method for mapping recordings from fluorescent screens with long afterglow period using Lumiophores, the luminous color of which differs from the Electron current is dependent Lunminophores are known in which the position of the Intensity maximum of the emitted light from the strength of the electron beam current is dependent. The controllability of the color of the emitted light is suitable Preparation @ of the layer between Blair and Red is easily possible.

There are also photochromic substances known that under the influence of Light of a certain wavelength, e.g. B. when exposed to blue light, one certain hue and under the influence of light of another certain wavelength, z. B. when exposed to red light, a different from the first hue Adopt hue. In particular: with such substances it is possible that the Light of a certain wavelength produced hue by means of light @oneir other to reverse a certain wavelength. This process is convenient to repeat as often as you like.

The phototropic substances mentioned have already been used in a process. used to produce erasable photographs and. advertise that this is usable for the purposes of telegraphy and television. With this one known methods are special light sources for the generation of an image or its extinction required.

For a long time there has been an effort to use Braun tubes, especially oscillograph tubes, equip with a luminescent screen of high persistence to z. B. the careful Allow assessment of a one-off event recorded by the tube. The attempts made so far have not been entirely satisfactory, as they have all been Cases only fluorescent screens with a relatively short afterglow period were achieved. It it was therefore necessary in many cases to resort to the photographic method but requires a considerable amount of resources and also a. immediate Evaluation not permitted.

The various disadvantages of the known methods are through the Invention overcome. This basically consists of my method of mapping of records from luminous screens with great afterglow dawn under Use of luminophores, the luminous color of which depends on the electron beam current is, and is characterized in that from luminophores and optionally Binding additives existing layer with a layer of photochromic substances in this way combined is that the fluorescent light falls on the photochromic layer and here the recording of the investigated process or the erasure of the previously recorded one Image causes.

Fig. I shows an oscilloscope tube with: a fluorescent screen according to the invention. The tube R contains a known electrode system - for the generation, modulation and focusing of the electrode beam that hits your transparent fluorescent screen F noticeable. That in each case before the point of impact of the electron beam emitted light falls on the screen S, which consists of a thin Layer of one or more phototro.p, it consists of substances. This layer should also be transparent according to the embodiment. That from the fluorescence screen to the Light falling on the screen S now excites the phototropic substance and causes a Change of color. - On the screen S is exactly the same process recorded by the. "Electron beam from the tube on the fluorescent screen F is described. It is now essential that the change in color tone effected on the screen S is retained for a long time, while the image of a conventional fluorescent screen as is well known, disappears again in a very short time. That generated on the screen S. The image can thus be carefully observed and evaluated. Has this happened so -will cause a spectral shift by changing the electron beam current intensity the intensity maximum of the fluorine: eszenslichtes (color) causes, for example in such a way that the previously blue fluorescent light changes into a red one. The properties .the phototropic substances can cause that by the exposure of the screen S with red light, the image previously created on it by blue light is extinguished will. The combination phosphor screen consisting of the fluorescent screen F and the photochromic screen S is then available for recording a new process. According to the Properties of the phototrop.en Suibstanzen can now achieve an image and its triggering -be repeated practically as often as you like, so that z. B. a big one Number of operations can be accommodated one after the other.

By the electron beam erasing an image formed on the photo tropical umbrella can, as already mentioned, even loading works are by = given suitable: nderang the beam current to be signed. Let the process run again It is of course also possible to effect the extinction by the. The electron beam can describe the entire image area like a television grid. If necessary, an electron beam is provided for each Awf7, calibration and extinction.

It is also within the meaning of the invention that the erasure is carried out in each case to effect a special light source, for example, outside the tube placed near the screen S and with suitable filters for sieving the desired color is provided. All light sources can be used which contain the desired wavelength range, and where the screening this area is possible in some way.

The fluorescent layer F and the one made from phototropic substances Screen S can be combined in various ways. The embodiment shows both screens set up separately one behind the other in the direction of the electron beam. In this case, both screens will be placed as close to one another as possible in order to to avoid blurring of the fluorescent spot. Is particularly useful it; to apply both screens to one and the same base, e.g. B. on the piston crown, the one on the inside first with the phototropic layer and above with the Fluorescent layer is covered. In certain cases it can also be advantageous to set up optics between the fluorescent screen and the phototropic screen, -which the imaging of the fluorescence point from the fluorescent screen onto the phototropic screen causes.

The invention also extends to the case that. Instead of transparent screens, oversight screens can be used, or a transparent screen is used as the fluorescent screen and an opaque screen is used as the photochromic screen. A. Exemplary embodiment of this type is shown in Fig. Z. in which the designations of Fig. i have been adopted. Between the fluorescent screen F and the phototropic screen S there is a lens L, which images the fluorescent leak #, uf the phototropic screen. B is the observer's eye.

Claims (7)

PATENT CLAIMS: i. Procedure for mapping records from Luminous screens with large afterglow using luminophores, their Luminous color depends on the electron beam current, through this characterized in that the consisting of luminophores and optionally binding additives Layer combined with your layer of known photochromic substances in this way is that the fluorescent light falls on the pho: totropic layer and here the recording of the investigated process or: the erasure of the previously recorded image causes. 2. Procedure according to. Claim. i, characterized in that: the Aufteichnumg and extinction: by modulating the current strength of his and the same electron beam is made. 3. The method according to claim i, characterized in that two Electron beams are used, one of which for recording .des. examined Operation and the other to erase the recorded image. serves. 4. Procedure according to claim i to. 3, characterized in that the application of the fluorescent Layer and the phototropic layer on one and the same substrate, e.g. B. the Tube flask bottoms: a Braun tube. 5. The method according to claim i to 4, da-: duTch indicates that fluorescent and photobropic layers are used that are translucent or largely translucent. 6. Procedure according to claim i to 3, characterized in that the fluorescent layer and the photochromic layer are spatially separated from one another and the on the recording appearing on the fluorescent screen imaged on the photochromic layer will. 7. The method according to claim 6, characterized in that: that a photochromic Layer is used, which is placed outside the tube and in reflection is looked at.