DE2050041A1 - Method and apparatus for image recording with superimposition of a carrier frequency structure - Google Patents

Description

Methods and devices for image recording with overlay of a carrier frequency structure The invention relates to a method and devices for image recording with superimposition of a carrier frequency structure and for reproduction of the image using diffraction phenomena of this structure.

The so-called carrier frequency method has long been known and has recently found its way into practice.

Here, each image to be recorded is recorded during the recording a grating image is superimposed, the diffraction orders of which are then used to reproduce the recorded Image can be used when superimposing several such carrier frequency modulated However, errors can occur in images insofar as the carrier frequencies overlap cause a mutual modulation and thereby diffracted light in the reproduction undesired directions corresponding to the intermodulation grids is directed. There it does not contribute to the picture structure, but leads to lightening in places Where darkness should prevail in the reproduced image.

For example, line art can have a frayed appearance The edges of blackened areas.

The aim of the invention is to eliminate these errors caused by intermodulation to avoid. According to the invention, the method mentioned at the beginning is used in a method Art as a carrier frequency structure a section of an essentially continuous Frequency distribution used. Due to the multitude of carrier frequencies that carry the image content Intermodulation is not possible to the same extent as if the information were to be disrupted is only modulated on a single carrier frequency.

Further details and advantages of the invention emerge from the Subclaims in connection with the description of an exemplary embodiment, which is explained in detail with reference to figures. 1 shows schematically a Device for carrying out the method according to the invention, FIG. 2 shows a diaphragm a device for frequency filtering in the device according to FIGS. 1 and 3 to reproduce the recordings made according to FIG.

In Fig. 1, 1 denotes a light source, preferably a laser, which emits at least partially coherent light. In the one emanating from the laser A converging lens 2 is arranged in parallel with a beam of rays, in its focal plane a pinhole with a very fine opening a quasi point light source, the opening 3c in the diaphragm 3 outgoing divergent, generate coherent light beam.

In this bundle of light there is a ground glass screen 4, which has been selected in this way is that it has a substantially continuous frequency spectrum, in However, the low frequencies, in the range of which the original image to be recorded is present, almost does not occur. The spatial frequency spectrum of the focusing screen 4 is imaged by a first Fourier transformation lens 5 into a transformation plane 6, in which a frequency diaphragm 7 shown in FIG. 2 is arranged. The frequency shutter has two symmetrical to the optical axis at a certain distance from the center Openings 7a, 7b. The distance from the center is chosen so that the low Spatial frequencies, in the area of which the information of the original to be mapped mainly are to be filtered out.

The ground glass 4 is after the spatial frequency filtering through the aperture 7 imaged by a lens 8 in an inverse transformation plane 9, in which z. B. the transparent original 10 in contact with the photosensitive copy carrier 11 lies.

The recording according to the method according to the invention now happens as follows: the laser 1 and the downstream optical elements create the focusing screen 4 with monochromatic light emanating from a point light source, illuminated. A Fourier spectrum or spatial frequency spectrum therefore lies in plane 6 of the frequencies emitted by the screen. Through the openings 7a, 7b however, only a very specific frequency band is allowed to pass through, that after superposition is recorded with the content of the original 10 on the substrate 11. To the development and optionally bleaching of the support 11 is on this the image of the original is recorded with a superimposition of a carrier frequency structure, those at high magnification with a large number are essentially the same Direction of running short wavy lines is comparable.

Instead of the contact exposure according to FIG. 1, the original 10 can also be brought into contact with the ground glass 4. Then, too, arises on the substrate 11 an image of the original 10 superimposed with the carrier frequency band.

In addition, the template 10 could be in the position shown in FIG through another lens onto the substrate 11, which is then in accordance with to the right offset position would be to be exposed 0 in Fig. 3 is a device for reproducing the image recorded on the substrate 11 shown. A condenser lens is provided by an essentially point-shaped light source 12 13 illuminated, in the immediate vicinity of which the layer carrier 11 is located. These The light source is imaged in a diaphragm plane 6, in which a diaphragm accordingly which is arranged according to FIG. Are the openings 7a, 7b in the same Position to the layer carrier 119 in which they were during the exposure then just the part of the spatial frequency spectrum will be through these openings 7a, 7b transmitted which is modulated with the recorded original 10. That through the Light which has passed through openings 7a, 7b is directed by a lens 15 onto a viewing screen 16 thrown. The lens 15 forms the layer carrier 11 sharply on the screen 16 from.

When recording, the aperture 7 is now increased by such an amount rotated that the areas in which the openings 7a9 7b were not overlap more, a further original 10 can be exposed onto the layer support 11 will.

These superimpositions can be continued until the diaphragm is 7 um was shot around 1800. Openings on a larger radius can also be used 7a, 7b apply. For a larger number of overlays, however, it is necessary that the support 11 rehalogenates to produce phase images after development and / or is bleached because an absorption record of so many originals on top of each other no more light would let through. More details on carrier frequency photography and the necessary procedural steps are from the earlier German patent application P 16 22 865 can be found.

When reproducing a support 11 with a plurality of superimposed templates is each for the separate reproduction of one of the templates Bring aperture 7 in the same position as when taking the picture.

Instead of the focusing screen 4 for generating the continuous spatial frequency spectrum phase spreaders especially suitable for this can also be used, for example according to the teaching of the German Patent specification ............ (= German patent application P 20 12 191.9) on photographic Paths are made.

Claims (6)

Patent claims Process for image recording with superimposition of a carrier frequency structure and to reproduce the image using diffraction phenomena thereof Structure, characterized in that a section is used as the carrier frequency structure is used from a ii substantial continuous frequency distribution. 2. Apparatus for performing the method according to claim 1, characterized characterized in that one of an at least partially coherent light source (1) Illuminated scatterers radiating a continuous spatial frequency spectrum, preferably a ground glass (4), from a first lens (5) in a spatial frequency plane (6) is Fourier transformed, in which a diaphragm (7) with two to the optical axis symmetrical openings (7a, 7b) and that a second lens (8) for bending over is provided in the image plane (9) in which the Uräger frequency structure occurs. 3. Apparatus according to claim 2, characterized in that the scattering characteristic of the spreader (4) and the distance between the openings (7a, 7b) in the diaphragm (7) from the optical axis are determined so that the tape, the carrier frequencies are clearly opposite the signal spectrum of the images to be recorded is delimited. 4. Apparatus according to claim 2 or 3, characterized in that the diaphragm (7) is rotatable about the optical axis of the device. 50 device according to one of claims 2 to 4, characterized in that that the original to be photographed (10) in the plane (9) of the reverse transformed Screen image lies. 6. Device according to one of claims 2 to 4, characterized in that that the Sfotografierende template (10) in the focusing screen level (4) with this in Contact lies.