DE1547885A1 - Method for successively recording a plurality of images - Google Patents

Description

The present invention relates to a method sur consecutive recording of a plurality of Image by means of intense electromagnetic radiation a photosensitive layer to form a latent image in this layer and then Develop the image by irradiating the whole Layer by a much less intense radiation source, for example with white light, which is characterized in that it is a light-sensitive layer one that contains silver bromide per 100 parts by weight, 0.5 to 5 parts by weight of silver iodide and 0.1 to 5 Parts by weight of a lead saltSi, tin salt or cadraium

U ₁ 1 lariagen (Art. 7 81 para, 2 No. I

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salt, preferably a halide, in an inert gelatin ' binder or methyl cellulose contains that one is the photosensitive Layer is first exposed to an electromagnetic beam, which contains electrically charged particles, which by passing through a

electrical u ⁿ elds of a voltage in the order of magnitude of 2 to 100 kilovolts were accelerated, then the resulting latent image is developed by exposing the entire layer to a white light source of relatively low intensity, then a part of the layer that does not have a developed image carries a further electromagnetic Exposing it to radiation to form a further latent image, then developing this latent image by exposing the entire layer to white light and optionally repeating these process steps as many times as desired.

It is known that certain photographic recording processes through the "use of print-out reproduction material can be carried out. The Auskopierverfahren consists in that images on a light-sensitive Materi'al by exposure formed with radiation without chemical development. First, an invisible image is created that is actinic Radiation is made respectable. That after a simple exposure invisible image obtained with relatively intense radiation becomes. directly to a permanent image by exposure to radiation developed at a lower intensity. Copy-out * materials of these

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Art are often used, e.g. to record the lines an oscilloscope. '

In a typical pail the invisible ("latent") image first by a very short exposure with the intense recording Beam of the oscilloscope and then the visible image obtained by developing the invisible image by simply exposing it to white light. This additional or second exposure is commonly known as visualization ("latensification"). The latensification includes the repeated Exposure of the area on which the first image was formed and the first exposure of the surrounding background.

One of the most characteristic features of print-out emulsions is their ability to develop through exposure to white light alone * The actual line exposure is usually immediately followed by the overall post-exposure mentioned above. These fulfills two different tasks. The post-exposure to light lower intensity, the line image develops, with reduced silver being added to the latent image. At the same time, it stabilizes the unexposed areas against rapid copying out under normal lighting conditions, as long as they are safe Hardly located or only exposed with low intensity, such as storage in normal business premises. Hence remains obtain an acceptably low background density; that through

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the line image developed by the second exposure can be clearly seen and can be sustained for some time. The sensitivity of the paper as opposed to a further line exposure, e.g. by means of an oscillating scope, however, after the power) elimination with light also very much reduced. The paper can be developed with its Image in stock for a long time under normal lighting conditions' but it cannot be reused for another recording by the oscilloscope.

A typical photographic print-out emulsion can consist of a larger proportion of silver bromide and smaller amounts of silver iodide, combined with a small amount of a lead, stannic or. Gadmium salt, preferably a lead salt, exist. As lead salt becomes a lead halide such as lead bromide, chloride or iodide used. These substances are all in a suitable colloidal carrier or binder, such as gelatin or methyl cellulose, united. If necessary, a suitable, chemically treated starch, such as that in the IJS patent, can be used as a binder 3,047,392 mentioned hydroxyalkyl starch can be used.

Hit the expression "exposure" is therefore in the present j? All any denotes any production of a latent image.

The prior art also includes a copy material with a Silver halide emulsion containing up to 20 percent by weight lead or cadmium iodide, based on the halogen silver. In contrast

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contains the silver bromide used in the present process becomes only 0.5 to 5 percent by weight silver iodide and 0.1 to 5 percent by weight lead, tin or cadmium salt. I'm another one The fundamental difference is that the known copy material is not used for the successive production of several Images were used on other parts of the copy material.

The prior art also includes direct recording Halide silver emulsion in photographic paper, the essentials being the grain size of the silver halide and the presence of tin salt in the absence of lead is »At this stand According to the technique, the silver halide of the emulsion contains silver bromide and mixtures of silver bromide with silver chloride, but no mixture of silver bromide and silver iodide; furthermore is with this Prior art during the local exposure and the subsequent light development the material at a temperature of to keep at least 93 ° E.

In the present invention, photographic materials can be those described above general types advantageous for the successive recording of visible, images on different surfaces of the same material by an invisible electromagnetic «.Energy, like. them in a recording device for charged Particles is obtained .be used. In such a known acceleration rotation, electrons or ions are in

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subjected to an electrical level of voltages that charged them Able to accelerate particles. An electric ITeId with a voltage between 2 and 100 kilovolts is used to accelerate of electrons with an atomic number between 1 and 18 supplied, i.e. from ions of the elements hydrogen up to and including Argon. The electrons, ions, accelerated in this way or even slow neutrons can be based on the above Recording material can be recorded. Charged particles and their effect on common photographic emulsions are in Chapter 8 of "The Theory of the Photographic Process" revised 1958 edition, described by Hees.

After exposure to the electron or ion beam, "the first invisible image generated by the beam is made by exposure to halide." with visible light of moderate intensity in the same manner as in the case of the oscilloscope exposure described above developed. A suitable intensity for such development or visualization is through the use of white 15 watt fluorescent lamp at a distance of 30 cm from the paper. The preferred exposure time is about 5 to about 60 seconds. This post-exposure sufficiently develops the image produced by the electron or ion beam. the Post-exposure makes, however, in contrast to the osz'illoskop-Beschichtung the paper on the non-post-exposed areas is not significantly insensitive to mutually exclusive exposure with an electron or ion beam. As a result, can.

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a film on which an electron or ion beam, a Has drawn on track that has been developed by post-exposure to relatively subdued light, for "more electron or Ion beam recordings at other or "neighboring locations of the Foil can be reused. The original electron or Ion beam image cannot be erased, a new recording is made However, the electron or ion beam can be at a different location the same slide. This recording is followed by the visualization post-exposure as described above. This makes it possible reuse each slide several times for electron or ion beam recording and subsequent visualization. on in this way, if necessary, comparative records can be applied one after the other directly to a single sheet.

The advantages that can be achieved according to the invention are therefore considerable. Relatively inexpensive dry sheet material can be exposed and re-exposed to record multiple images at different times without any chemical treatment. the Recording media are particularly useful when used for electron or ion beam recording, not only because of them Reusability but because of the fact that comparative Lines (tracks) one behind the other on different parts of the same Sheet can be recorded. This is a great advantage especially in research.

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A typical, for application on paper or foil material of the * ' The emulsion suitable for copying has the following composition:

Silver bromide * ■ -. 100 g

Silver iodide 0.5 to 5 g

Lead chloride 0.1 to 5g

Inert binder

Gelatin or cellulose 50 to 75 g '

Enough water to make it
a suitable emulsion consistency

The proportions of the constituents given above can can be varied somewhat within the stated general limits. A preferred preparation contains 100 g of silver bromide, 1 to 3 g of silver iodide with. 1 to 2 g of lead chloride, lead iodide or Lead acetate.

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Claims (1)

α 43 -229 IXa / 5Tb ■ * t- ^; General Aniline & Film '·. -;. Γ. ": Mannheim, Sept. 29, 1967 Oorporation Paten tansurüche 1.) Method for the successive recording of a plurality of images by high-intensity electromagnetic irradiation of a light-sensitive? borrowed layer with the formation of a latent image in this layer and subsequent development of the image by irradiating the entire layer by a much less intense radiation source, for example with white light, characterized in that the photosensitive layer used is one that per 100 weight -part silver bromide, 0.5 "to 5 weight- *, parts silver iodide and 0.1 to 5 Gewiqhtsteile of a lead salt, tin salt or oadmium salt, preferably a halide, in an inert gelatin binder, or methyl cellulose, that one contains the photosensitive ^ layer first exposed to an electromagnetic beam containing electrically charged particles that pass through: an electric field with a voltage in the order of 2 to 100 kilovolts, then the latent image formed by exposing the entire layer to a white light source of relatively low intensity, developed on this a part of the layer that is not a developed image carrying one another ^elec-: tromagrietischen irradiation to form a further latent image exposes, then \ B09882 / Q & 89 '♦ / · BADORLGiNAL JJl -, _- ■ »» - M latent image through Layer of white Üiöht _z : enimiok0tt vmä if this Terfätoensetufa "be © it like repeated, - ^: - ^ -." \ ^r - .- "■"'*.' ■ '. ""^v;v; - λ "'" 2 ») Veyfalxreii according to claim 1, daänrcfe 4aS the development of latent Bilas "causes Dian to remove the whole ScMch.t-.5-6O Seconds with a 15 watt IkaiEpeaaä einia Distance of 30csi reads, ^ BAD * ORiGlNAL