Patent Number: 050142917
Section: claims

1. An X-ray amplifying device comprising means defining an annular space; an exciting gas in said annular space; internal and external circular concentric rings of suitable metallic material circumscribing said annular space and spaced apart to form a channel between them, at least one of said rings forming an X-ray reflection electrode, an entrance and an exit port in said channel, means for applying a suitable difference of electrical potential to the said metallic rings so as to bring them into an excited state favourable to X-ray emission, a suitable X-ray source providing a primary X-ray beam directed so as to enter said entrance port striking against said reflection electrode so as to be reflected at least once before leaving said channel through said exit port so as to cause the X-rays, emitted from the reflection electrode by induced emission, to be superimposed on the X-ray reflected by said reflection electrode thus inceasing the intensity of the X-ray beam leaving the device. 2. A device according to claim 1, in which the applied difference of potential is sufficient to accelerate particles of the exciting gas such that they, in turn, excite the metal rings favourably for X-ray emission. 3. A device according to claim 1, said entrance port and exit port each placed substantially tangent to the said channel between the internal and external metallic rings and at such an angle that after one or more reflections of the incidental rays through entrance port, ray emission takes place through the exit port. 4. A device according to claim 3, in which the concentric metallic rings and the entrance and exit channels are housed in a container that can be emptied of air. 5. A device according to claim 1, in which the external circular metallic ring constitutes part of both a reflective surface and an anticathode for induced emission of X-rays. 6. A device according to claim 1 in which the exciting gas is made up of Xenon or other gas of higher atomic number than that of the metallic electrodes and the difference of potential applied to the metallic rings is of a potential superior to the highest typical potential of ionization of the metal of the metallic-rings. 7. A device according to claim 1, in which, when using a conventional source in tungsten for the primary X-rays, the concentric metallic rings are made of silver or of a silver plated metal, or of tin or other metal of an elevated atomic number, but in any case lower or equal to that of tungsten. 8. A device according to claim 1, in which the two circular concentric electrodes are of metals, of any element suitable for X-ray production, which have either the same atomic number or a lower atomic number than that of the metal of the anticathode producer of the primary X-rays. 9. An X-ray amplifying device comprising means defining an annular space; an exciting gas in said annular space; internal and external circular concentric rings of suitable metallic material circumscribing said annular space and spaced apart to form a channel between them, means for applying a suitable difference of electrical potential to the said metallic rings so as to bring them into an excited state favourable to X-ray emission, wherein the applied difference of potential is sufficient to accelerate particles of the exciting gas such that they, in turn, excite the metal rings favourably for X-ray emission. 10. An X-ray amplifying device comprising means defining an annular space; an exciting gas in said annular space; internal and external circular concentric rings of suitable metallic material circumscribing said annular space and spaced apart to form a channel between them, means for applying a suitable difference of electrical potential to the said metallic rings so as to bring them into an excited state favourable to X-ray. emission, and further comprising an entrance channel and an exit channel, each placed substantially tangent to the said channel between the internal and external metallic rings and at such an angle that after one or more reflections of incidental rays through the entrance channel, ray emission takes place through the exit channel. 11. A device according to claim 10, in which the concentric metallic rings and the entrance and exit channels are housed in a container that can be emptied of air.