DE1021099B - Radiation detection device, comprising a photosensitive part and an illuminating part, the emission of which is controlled by the photosensitive part - Google Patents

Description

Radiation detection devices have been described in which are the reversible changes in the electrical power brought about by this radiation Properties (conductivity and / or dielectric constant) of a semiconductor -after: referred to as photosensitive semiconductor -the electrical voltage on one in series with the photosensitive semiconductor in an electrical circuit Controlled switched electroluminescent material, so that the intensity of the electroluminescent light is a function of the intensity of the radiation to be detected.

If such a device consists of a photosensitive part and an electric light part with two-dimensional expansion, which parts are assigned to each other point by point, it is possible to identify one of the Radiation on the photosensitive part designed image to intensify and if the radiation to be detected for the "uge" is imperceptible, also visible close.

The invention is based on the knowledge that devices can be realized are in which those to be detected by a person other than by means of electroluminescence Radiation-induced changes in the electrical properties of a photosensitive Part the light emission of one together with the photosensitive part into one Determine the electrical circuit of the switched illuminated part.

According to the invention, such a device is characterized in that that the luminous part contains a phosphor which has field cancellation, and that Irradiation means are available which illuminate the luminous part by irradiation bring.

The field erasure here is that which occurs with some phosphors Appearance to understand that an electric field acting on the substance in with the strength of this field increasing, one by irradiation, for example luminescence caused by ultraviolet, x-ray or electron beams des Of the substance. In this regard, ainmenhang can refer to the article: »Brightness Waves and Transitory Phenoinena in the Ouenching of Luminescence by Alternating Electric Fields "by D e s t r i au in the" Journal of Applied Physics ", vol. 25, p. 67, January 1954, and the literature cited there.

In contrast to the known ones based on electroluminescence Devices has an increase in conductivity in the device according to the invention or the dielectric constant of the photosensitive member, d. H. a decrease the impedance of this part, a decrease in the emission of the luminous part result. If the device is device for radiation detection, with a photosensitive Part and a luminous part, its emission from the photosensitive part is controlled according to the invention for image reproduction is suitable by the photosensitive Part and the luminous part form a two-dimensional expansion and each other point by point are added, it shows if from a designed on the photosensitive member Radiation pattern the impedance of this part locally corresponding to the local brightness this radiation pattern is reduced, the light emission of the luminous part Image that is the negative of the radiation image on the photosensitive part. With such a device, a projected onto the photosensitive part can thus Image of a photographic negative can be converted into a positive image.

It should be noted that a photo relay is known with which as well such an image conversion is possible. In the known photo relay, the Polarization state of a light beam passing through a crystal layer image is changed by having an ultraviolet radiation image projected on this layer by a local change in the electrical resistance, the birefringence of the Layer-determining electrical voltage across this layer changes locally. the one in principle device showing different mechanism according to the invention has compared to the known photo relay among other things the advantages that you can with a smaller amount of technical resources, such. B. by eliminating polarization filters. can get along and that the picture is immediate is perceptible. In the case of the known photo relay, the image is only generated when it hits of the image-wise polarized light beam on a separate screen of different Directions made perceptible.

Should the image generated with the device according to the invention opposite the radiation image projected onto the photosensitive part does not reverse the brightness learned, so this is through the optical cascade connection of two of the above Devices achievable. However, this is also possible by means of a special embodiment the device according to the invention achievable. In this embodiment there is the photosensitive part consists essentially of a material that allows infrared erasure has, and radiation means are provided, which together with the to be detected Radiation bring about such an infrared erasure in the photosensitive part.

Under "infrared erasure" here is the property of various more photosensitive Substances understand that the change produced by a certain radiation alone the electrical conductivity and / or the dielectric constant with simultaneous Irradiation with infrared radiation decreases.

The invention is explained in more detail with reference to a drawing in which two embodiments are shown.

Fig. 1 shows schematically a device according to the invention converts a radiation image designed on the photosensitive member into its negative is converted, while Figure 2 also shows schematically a device, in which a radiation image designed on the photosensitive member and the associated one Luminescent image does not have a reverse brightness.

In the device of FIG. 1, 1 designates a screen at between the glass plates 2 and 3 held in a frame 4 a number of the entire surface of adjoining thin layers, which are of going left to right are denoted by 5, 6, 7, 8 and 9 and their strength is strong is shown enlarged.

Layers 5 and 9- are transparent electrodes made of tin oxide exist and connected to an AC voltage source 12 by means of conductors 10 and 11, respectively are. The electrodes 5 and 9 can be made of transparent instead of conductive tin oxide Metal layer or a metal grid.

The layer 6, which is the photosensitive part of the screen 1 forms, consists essentially of a photosensitive semiconductor, for example Cadmium sulfide.

The layer 8, which forms the luminous part, consists essentially made of a phosphor that has field cancellation. One such substance is, for example achievable by activating zinc sulfide with silver.

Between the two layers 6 and 8 is an opaque intermediate layer 7 arranged, which has a high resistance in directions in its plane. the Layer 7 can consist of a black lacquer, for example. This intermediate layer is intended to prevent the light emitted from the luminous layer 8 on the photosensitive Layer 6 can work back.

On the side of the screen 1 on which the luminous layer 8 is arranged, an auxiliary light source 13 is provided which is provided with an ultraviolet lamp 14, a filter 15 permeable only to ultraviolet rays and a lens 16 . With this auxiliary light source, the luminous layer 8 is irradiated in such a way that this layer is made to glow under the action of the ultraviolet radiation denoted by @ 'in the figure.

The operation of the device shown in Fig. 1 is as follows: If the photosensitive layer 6 is not irradiated, its resistance is very high. so that there is only a small part of the electrical voltage between the electrodes 5 and 9 on the luminous layer 8 transfers. However, if the photosensitive layer 6 is exposed, the impedance of this layer changes locally according to the local intensity of this exposure, which also localizes the partial voltage over the luminescent layer 8 increases more or less. Because the material of the luminescent layer 8 consists essentially of a phosphor which has field cancellation this local increase in spaminess a more or less strong local decrease the luminescence of the layer 8 generated by the auxiliary radiation L '. the originally practically evenly illuminating area of this layer now shows a pattern corresponding to the pattern in which the photosensitive layer 6 is exposed will. Because areas of the photosensitive layer that are exposed to greater light are less intense correspond to luminescent points of the luminescent layer 8, that of the latter The image shown is the negative of the image on the photosensitive layer. Consequently the device is very suitable for reproducing a photographic negative as a positive picture. A projection device 20 is schematically shown in FIG. 1 indicated, with which a photographic negative 22 placed in the housing 21 is imaged on the photosensitive layer 6 of the screen 1. The projection device contains a light source 23, a diffusion screen 24, for example made of frosted glass, a half condenser 25 and a slidable projection lens 26, which by means of an extendable Bellows 27 is connected to the housing 21. The image showing the luminescent layer 8. is now the positive of the photo negative 22.

Elsewhere it has been described how subdivided by choice Color filter, possibly in connection with a corresponding subdivision of the photosensitive or light-emitting layer, a screen with a photosensitive Layer and an electric luminous layer suitable for the reproduction of color images can be made and that changing the color value is possible. By similar It is possible to use the screen 1 of FIG. 1 for positive reproduction of a measure To use color negatives. Care must then be taken to ensure that everyone Match the color of the image shown by layer 8 to the color of the one on the Photosensitive layer 6 designed image is complementary.

The device shown in FIG. 2 contains a screen 40. which differs only slightly in structure from the screen 1 of FIG. It is here only a single glass plate 41 is present on which the different, with each other layers in contact are applied. From right to left expected there is a transparent electrode 42, a luminous layer 43, an opaque one Intermediate layer 44, a photosensitive layer 45 and a second transparent layer Electrode 46 in front. The electrodes 42 and 46 are by means of conductors 47 and 48 with the connected to both terminals of an AC voltage source49. The electrode 46 can be of a fabric made of thin glass threads made conductive with tin oxide.

Of the various layers 42 to 46, only the differs photosensitive layer 45 from the corresponding layer 6 of the screen of the Fig. 1. Layer 45 consists of a photoconductive material that is infrared quenching having photoconductivity. The layer 45 can, for example, essentially consist of zinc sulfide activated with silver and gallium.

As with the device according to FIG. 1, there is an auxiliary radiation source 13 provided with an ultraviolet lamp 14, a filter 15 and a lens 16, in order to irradiate the luminescent layer 43 and consequently make it glow. The device according to Fig. 2 also contains a further auxiliary light source, denoted by 51 is designated. This contains a lamp 52, an infrared blocking filter 53 and a lens 54, which in the figure with a designated L bundle on the photosensitive Layer 45 throws. The bundle L is such that it is in the photosensitive Layer 45 produced photoconductivity by simultaneously irradiating it Layer with infrared radiation is reduced depending on the strength of the latter will. The bundle L, like the bundle U, can for example consist of ultraviolet radiation exist. Is thus by means of an optical system, which consists of a lens 56 and a filter 57 permeable only to infrared rays, an infrared image of an object, for example a photographic positive, on the photosensitive Layer 45 is designed according to the local intensity of this image the partial voltage across the luminous layer 43, which in the absence of such an image was high due to the conductivity in the layer 45, under the action of the auxiliary radiation L reduced, whereby the luminous layer 43 locally in a more or less high Malte shows an increase in luminescence. That on the side of the luminescent layer 43 visible image thus corresponds to that of in terms of brightness and darkness of the lens 56 formed on the photosensitive layer 45. This device is for example as a so-called night vision device for perception in the dark and Suitable as intensifying screen when projecting film and photo images.

In contrast to the known screen with a light-emitting one The intermediate layer has a layer which essentially consists of an electro-phosphor 7 and 44 do not have the task of instability in the devices described above to prevent the device. The feedback that occurs without the intermediate layer 7 or 44 could occur is a negative feedback, which increases the sensitivity of the device would significantly decrease.

Claims (5)

PATEN TA NS PR CCHE: 1. Device for radiation detection with a photosensitive part and a luminous part connected to this in an electrical circuit, the emission of which is controlled under the action of the reversible changes in the electrical properties of the photosensitive part generated by the radiation to be detected, characterized that the luminous part contains a luminophore which has field cancellation, and that irradiation means are present by means of which the luminous part is made to glow by irradiation. 2. Device according to claim 1, characterized in that the photosensitive part and the Luminous part, both of which are two-dimensional, suitable for displaying images Have expansion, for example consist of a thin layer, thereby a screen that they form spatially and electrically. assigned to each other consist of parallel elements. 3. Device according to claim 1 or 2, characterized in that that radiation shielding means are used, which prevent radiation from the Luminous part or the radiation means that make this part glow, the photoconductive Affect part. 4, device according to one of the preceding claims, characterized characterized in that the photosensitive member consists essentially of one material which has infrared erasure of photosensitivity and that irradiating agent are present, by means of which, together with the radiation to be detected, such Deletion is generated. 5. Union of a photosensitive part and one Luminous part, for example a luminescent screen, which is suitable for a device to find use according to one of the preceding claims, characterized in that that the luminous part contains a phosphor which has field cancellation, into consideration Drawn publications: German patent specification No. 698 082.