Patent Number: 
Section: claims

1. An x-ray beam processor system comprising:an x-ray beam generator for generating x-ray beams;multilayered planar waveguide optics wrapped into a diverging cone on a substrate, wherein the diverging cone is an inner collecting cone and x-ray beams are collected on an outer surface of the diverging cone;an outer collecting cone, wherein the outer collecting cone collects x-ray beams on an inner surface of the outer collecting cone;a planar waveguide formed by the joining of the outer collecting cone and the inner collecting cone,wherein the planar waveguide forms a converging cone that includes straight angles and x-rays increase in coherence and adherence within the converging cone; anda mirror ring for aiming x-rays exiting the planar waveguide. 2. The x-ray beam processor system according to claim 1, wherein the collecting cones and converging cone are continuous and are an integral unit. 3. The x-ray beam processor system according to claim 1, wherein the substrate is smooth stainless steel. 4. The x-ray beam processor system according to claim 1, wherein the substrate is coated with alternating layers of dense and light materials. 5. The x-ray beam processor system according to claim 1, wherein the collecting cones and converging cone are linked by a ring of polycapillary optics. 6. The x-ray beam processor system according to claim 1, wherein cooling tubes are disposed in a core to cool the surface. 7. The x-ray beam processor system according to claim 1, wherein a lead shield is placed on the outside of the cones to absorb x-rays. 8. The x-ray beam processor system according to claim 1, wherein the diverging cone is slightly concave and the outer collecting cone is slightly convex with respect to incoming x-ray beams. 9. The x-ray beam processor system according to claim 1, wherein the mirror ring comprises at least one actuated mirror. 10. The x-ray beam processor system according to claim 1, wherein the outer collecting cone is a multilayer planar waveguide wrapped into a slightly diverging cone. 11. The x-ray beam processor system according to claim 5, wherein the polycapillary optics are mounted on actuated chips such that photons are directed into the converging cone or kept out of the converging cone to control flux. 12. An x-ray beam processor system comprising:an x-ray beam generator for generating x-ray beams;an outer collecting cone adjacent to the x-ray beam generator that collects x-ray beams on its inner surface through an inlet;a multilayer waveguide wrapped into a diverging cone with slightly convex sides;a condensing cone made of a multilayer waveguide wrapped into a converging cone with straight sides,wherein the diverging cone is connected to the condensing cone at a meeting point; anda lead shield is disposed at the meeting point in between the diverging cone and condensing cone to prevent unchanneled x-ray beams from entering the condensing cone. 13. The x-ray beam processor system according to claim 12, wherein the cones are rigid and actuated as a unit for aiming. 14. The x-ray beam processor system according to claim 12, wherein lead leafs are used to form an aperture at the inlet of the collecting cone. 15. The x-ray beam processor system according to claim 12, wherein the inlet of the collecting cone is situated immediately adjacent to the x-ray beam generator. 16. The x-ray beam processor system according to claim 12, wherein the diverging and converging cones are linked by a ring of polycapillary tubes. 17. The x-ray beam processor system according to claim 12, wherein the diverging and converging cones are linked by multilayer waveguides on actuated chips for controlling flux. 18. The x-ray beam processor system according to claim 12, wherein exiting x-ray beams are manipulated by a ring of single or multiple actuated mirrors for aiming. 19. The x-ray beam processor system according to claim 12, wherein there are a plurality of x-ray beams exiting the system in different directions. 20. The x-ray beam processor system according to claim 19, wherein a lead shield is used to absorb unwanted x-ray beams at an exit cone of a waveguide. 21. An x-ray beam processor system comprising:an x-ray beam generator for generating x-ray beams;a collecting cone made of a multilayer planar waveguide wrapped into a diverging cone with slightly concave sides;a condensing cone made of a multilayer planar waveguide wrapped into a converging cone,wherein the collecting cone is connected to the condensing cone and x-rays are collected on the outside of the collecting cone;an exit located at an end of the condensing cone; anda ring of actuated mirrors disposed at the exit of the condensing cone. 22. The x-ray beam processor system according to claim 21, wherein the diverging and converging cones are linked by a ring of polycapillary tubes. 23. The x-ray beam processor system according to claim 21, wherein the diverging and converging cones are linked by multilayer waveguides on actuated chips for controlling flux. 24. An x-ray beam processor system comprising:an x-ray beam generator for generating x-ray beams;a collecting cone comprising multilayer waveguide optics;a condensing cone comprising multilayer waveguide optics; anda plurality of polycapillary tubes with channels, wherein the polycapillary tubes link the collecting cone and the condensing cone. 25. The x-ray beam processor system according to claim 24, wherein the channels of the polycapillary tubes are approximately 1 micron in diameter. 26. The x-ray beam processor system according to claim 24, wherein the diameter of the polycapillary tubes is approximately 7 microns. 27. The x-ray beam processor system according to claim 24, wherein the polycapillary tubes are actuated to change the direction of the x-ray beams. 28. The x-ray beam processor system according to claim 27, wherein the polycapillary tubes are actuated separately. 29. The x-ray beam processor system according to claim 24, wherein the polycapillary tubes can be used to turn off certain waveguides.