Patent Number: 
Section: claims

1. An x-ray system with one or more conditioning filters comprising:an x-ray tube containing:a cathode which supplies electrons; andan anode which can be maintained at high positive electrical potential to the cathode and has a target area which is impacted by electrons from the cathode when the positive potential is maintained generating x-rays;a radiation resistant casing which encloses the x-ray tube; anda window in the radiation resistant casing which allows some of the x-rays generated at the target area to exit the system, with the window having a vapor deposited layer of a filtering metal of sufficient thickness to effectively condition the x-rays passing through the window and located to intercept the x-rays passing through the window; wherein the window is constructed of high purity aluminum; and wherein the vapor deposited layer of filtering metal is selected from the group consisting of high purity copper, molybdenum, tin, titanium, tungsten, and zirconium. 2. The x-ray tube of claim 1 wherein the window is of sufficient thickness to effectively condition the x-rays passing through it. 3. The x-ray system of claim 1 wherein the layer of filtering metal is created by physical vapor deposition. 4. The x-ray system of claim 1 wherein the layer of filtering metal is created by chemical vapor deposition. 5. The x-ray system of claim 1 wherein the layer of deposited filtering metal is at least about 10 microns thick. 6. The x-ray system of claim 1 further including an additional layer over the vapor deposited layer of filtering material that is a second material different from the filtering material. 7. The x-ray system of claim 1 wherein the layer of deposited filtering metal is on the exterior surface of the window. 8. The x-ray system of claim 1 wherein the exterior surface of the window is inset from the exterior surface of the radiation resistant casing. 9. The x-ray system of claim 1 wherein the window and the layer of filtering metal together condition the x-rays passing through them to be suitable for use in the medical imaging of human patients. 10. An x-ray system which generates conditioned x-rays suitable for the medical imaging of human patients comprising:an x-ray tube containing:a cathode which supplies electrons; andan anode which can be maintained at high negative electrical potential to the cathode and has a target area which is impacted by electrons from the cathode when the negative potential is maintained generating x-rays;a radiation resistant casing which encloses the x-ray tube; anda high purity aluminum window in the radiation resistant casing which allows some of the x-rays generated at the target area to exit the system, the window being of sufficient thickness to partially condition the exiting x-rays and having a vapor deposited layer of high purity copper of between about 50 and 150 microns in thickness to complete the conditioning of the x-rays passing through the window and located to intercept the x-rays passing through the window. 11. A process for the construction of an x-ray system with one or more conditioning filters having:an x-ray tube containing:a cathode which supplies electrons; andan anode which can be maintained at high positive electrical potential to the cathode and has a target area which is impacted by electrons from the cathode when the positive potential is maintained generating x-rays;a radiation resistant casing which encloses the x-ray tube; anda window in the radiation resistant casing which allows some of the x-rays generated at the target area to exit the system, with the window having a layer of a filtering metal of sufficient thickness to effectively condition the x-rays passing through the window and located to intercept the x-rays passing through the window, the process comprising vapor depositing the layer of filtering metal on a surface of the window; wherein the window is constructed of high purity aluminum; and wherein the layer of filtering metal is selected from the group consisting of high purity copper, molybdenum, tin, titanium, tungsten, and zirconium. 12. The process of claim 11 wherein the layer of filtering metal is created by physical vapor deposition. 13. The process of claim 12 wherein the physical vapor deposition involves the use of a magnetron. 14. The process of claim 11 wherein the layer of filtering metal is deposited on the exterior surface of the window. 15. The process of claim 11 wherein the layer of filtering metal is created by chemical vapor deposition. 16. The process of claim 11 wherein an additional layer of material is deposited over the layer of filtering metal. 17. The process of claim 16 wherein the additional layer is not the same material as the vapor deposited layer of filtering metal.