DE1101147B - Process for the production of color grids and color-photographic multilayer material for the latter - Google Patents

Description

Process for the production of color grids as well as color photographic Multi-layer material for the latter. The invention relates on the one hand to a process for the production of color grids for additive color photography and on the other hand to a multilayer color photographic material for the latter.

There is already a method of making cinematographic Grid matrices known for halftone color films, according to which a grid table with a arbitrarily large system of black and white lines on three black and white films is recorded, the grid table being offset by one line width for each film is; the recordings are converted into duel matrices and then each with one Basic color colored. In addition, photographic emulsions are known in which the grain size of the halogen silver is smaller than half the wavelength of the applied Are light.

The production of color screens by photographic recording of a colored pattern on a subtractive color photographic multilayer material is the subject of the protected in the patent 1,041,793 the combination process for the production of color film material for an additive raster color photography process.

The invention is based on the object of providing color line grids with a large Line density or color point grid with high color density per unit area on photographic To make ways.

The object is achieved in that arranged on large areas colored grids, especially line grids, the lines of which are subdivided into a checkerboard pattern Fields parallel to one another from field to field but perpendicular to one another, be recorded on a subtractive photographic material in which the The mean diameter of the halogen silver grains in the individual layers is smaller is than half the wavelength of the incident light.

This ensures that in color photography with multilayer Photo material-related blurring of the photographic images due to the scattering of light and a whitening of the colors is eliminated.

According to the invention, the method is a color photographic one Multi-layer material is provided, which is characterized in that only in the upper layers or in the upper photographic layer, the mean diameter of the halogen silver grains is smaller than half the wavelength of the short-wave component of the incident light.

Here, the mean value of the diameter becomes under mean diameter understood of a single particle.

According to the invention is the mean diameter of the grains or others Downward obstacles in the photographic layers are not limited, d. H., the obstacles can be arbitrarily small if they are only smaller than half Corresponds to the wavelength of the incident light. The photographic material according to the invention is particularly suitable for the production of grids and color grids through photography of grids arranged on large areas, in particular line grids, whose Lines in fields divided like a checkerboard parallel and perpendicular from field to field or run obliquely to each other. The grids produced in this way can be used without difficulty a multitude of lines, d. H. contain several hundred lines per millimeter and in particular use as color raster for purposes of additive color photography find, for which purpose only a black and white photo emulsion is added to the screen produced according to the invention is applied. The chessboard-like division of fields can be extraordinary be chosen small.

The scattering of light on the grain of a photographic layer as an obstacle is a diffraction problem of a light wave in the grain as a diffractive one Object. It was previously of the opinion that the scattering coefficient is the ratio from the intensity of the incident light wave hitting the obstacle and the Intensity of the scattered or diffracted wave emanating from the obstacle, always is roughly equal to one. As the invention teaches, this view is only correct, as long as the well-known photographic Layers of diameter of the diffractive object, d. H. the grain, is larger than the wavelength of the incident light. Surprisingly, the invention has shown that the scattering coefficient can be depressed below the value one if the diameter of the diffractive Object is chosen to be smaller and, if possible, much smaller than half the wavelength of incident light, which means that the adverse influences the light scattering in the photographic layers through the teaching of the invention can largely be avoided. This statement applies to single scattering on a single diffractive object, as is the case with diffraction or scattering on grains photographic layers is the case.

For the properties of the photographic material according to the invention in relation the invention gives the following explanation of light scattering: On a diffractive A diffraction wave is created, which is reflected as radiation from by the incident object Light wave excited electric and magnetic multipoles. the As already mentioned, the intensity of the diffraction wave is practically equal to that intensity of the incident wave hitting the diffracting object, if that diffractive object is large compared to the wavelength. When the diffractive object on the other hand has the size according to the invention, it is independent of the geometric shape of the diffracting object, the diffraction wave is only a dipole radiation, its intensity non-linear, d. H. at least quadratically or in a higher, roughly fourth power, as the ratio of the diameter of the diffractive object and The wavelength of the incident light decreases.

Surprisingly, that can also be achieved by the invention Improving the sharpness of photographic images also practically independent of the geometric shape of the grains or other obstacles in the photographic Layers. It is therefore irrelevant how that for the photographic material according to the invention required emulsions or crystals or crystallites are produced. The stand technology knows several processes for the production of sufficiently small crystals, applicable to the invention. For example one can use the photosensitive Crystals by coagulation from the gas phase, by vapor deposition or by appropriate Form influencing filling reactions.

The sensitivity of the photographic material according to the invention is sufficient and can be in the usual way, for. B. by sensitizers affect. Appropriately if the photographic material according to the invention is used as a negative for color photography and positive material in a manner known per se so that a color-forming development is possible. The various processes, such as those with dye formers, can then be used in the developer and those with dye formers in the photographic layer, in direct or use in the reverse process. Color reversal development, however, is for the present invention Photo material particularly suitable.

Apart from this, the color photographic processes also involve dye degradation as well as with tint and dye coloring.

The advantages achieved by the invention are besides avoidance The light scattering can also be seen in the fact that the sharpness of the drawing itself as a result of the extremely fine grain of the material is advantageously increased. Especially clear these advantages in the proposed use of the photographic material for production of grids with extreme line density per millimeter or point density per square millimeter and therefore eliminate the difficulties encountered in additive color photography with regard to the production of sufficiently fine grids with sharply delimited grid lines or points still exist. The proposal for a checkerboard arrangement of Fields with grid lines parallel to one another, which run from field to field to one another running vertically or diagonally brings a considerable improvement in the color quality without disturbing grid perception and relieved if one uses the chessboard-like described Selects the arrangement of the grid lines and the grid lines for positive and negative material who arranges fields in a criss-cross pattern, essentially the copying of color films.

Claims (2)

PATENT CLAIMS: 1. Process for the production of color grids for the additive color photography, characterized in that arranged on large areas colored grids, especially line grids, the lines of which are subdivided into a checkerboard pattern Fields parallel to one another, but perpendicular to one another from field to field, on a subtractive color photographic material, in which the mean diameter of the halogen silver grains in the individual layers is smaller is than half the wavelength of the incident light. 2. Color photographic multilayer material for the method according to claim 1, characterized in that only in the upper layers or in the upper photographic layer the mean diameter of the halogen silver grains is smaller than half the wavelength of the short-wave portion of the incident light. Documents considered: German Patent No. 871669; von Angerer: "Wissenschaftliche Photographie", 1952, p. 189-; Publ. D. scientific Central Laboratory d. photographic department »AGFA«, 1933, p. 93 ff.