Patent Number: 
Section: claims

1. X-ray diagnostic system, comprising: a source of x-rays;  an x-ray beam concentrator having a cylindrical or conical geometry spaced apart from the x-ray source and disposed for receiving x-rays from the x-ray source; and  an x-ray spectrometer disposed for receiving x-rays from the concentrator;  wherein the x-ray beam concentrator is a point-to-point x-ray concentrator. 2. The system of  claim 1  wherein the x-ray source is a scanning electron microscope or electron microprobe. claim 1 3. The system of  claim 1  wherein the x-ray source is apparatus for irradiating a sample with an ion beam, synchrotron beam, or laser. claim 1 4. The system of  claim 1  wherein the x-ray source is a laboratory plasma. claim 1 5. The system of  claim 4  wherein the laboratory plasma is of the magnetically and/or electrostatically confined type. claim 4 6. The system of  claim 4  wherein the laboratory plasma is of the inertially confined type. claim 4 7. The system of  claim 1  wherein the x-ray source is an electron impact device. claim 1 8. The system of  claim 1  wherein the spectrometer is an energy dispersive x-ray detector. claim 1 9. The system of  claim 1  wherein the concentrator is a single reflection cylindrical concentrator. claim 1 10. The system of  claim 1  wherein the concentrator is a double or multiple reflection conical concentrator. claim 1 11. The system of  claim 1  wherein the concentrator comprises two or more nested cylinders or cones. claim 1 12. The system of  claim 11  wherein the nested cylinders are made of glass, aluminum foil, plastic foil, silicon or germanium. claim 11 13. The system of  claim 12  wherein the plastic foil is polyester, polyimide, kapton, melinex, hostaphan, apilcal, or mylar. claim 12 14. The system of  claim 12  wherein the plastic is ESTAR(trademark). claim 12 15. The system of  claim 13  wherein the plastic foil has a thickness that ranges from 0.002 to 0.015 inches or any thickness that allows the foil to be bent into a cylinder. claim 13 16. The system of  claim 12  wherein the nested cylinders are coated with a thin layer of metal. claim 12 17. The system of  claim 16  wherein the metal is a high Z metal. claim 16 18. The system of  claim 17  wherein the high Z metal is nickel, gold or iridium. claim 17 19. The system of  claim 12  wherein the nested cylinders-are coated with multilayers. claim 12 20. The system of  claim 1  wherein the concentrator is a single reflection cylindrical spiral concentrator. claim 1 21. The system of  claim 1  wherein the concentrator is a double or multiple reflection conical spiral concentrator. claim 1 22. The system of  claim 20  wherein the spiral is made of glass, plastic foil, aluminum foil, quartz ribbon, silicon or germanium. claim 20 23. The system of  claim 22  wherein the plastic foil is polyester, kapton, melinex, hostaphan, apilcal, or mylar. claim 22 24. The system of  claim 22  wherein the plastic foil is ESTAR. claim 22 25. The system of  claim 23  wherein the foil is 0.002 to 0.015 inches thick or any thickness that allows the foil to be bent into a spiral. claim 23 26. The system of  claim 22  wherein the spiral is coated with a thin layer of metal. claim 22 27. The system of  claim 26  wherein the metal is a high Z metal. claim 26 28. The system of  claim 27  wherein the high Z metal is nickel; gold or iridium. claim 27 29. The system of  claim 22  wherein the spiral is coated with multilayers. claim 22 30. The system of  claim 1  wherein the spectrometer is a wavelength dispersive x-ray spectrometer. claim 1 31. X-ray diagnostic system, comprising: a source of x-rays;  an x-ray beam concentrator spaced apart from the x-ray source and disposed for receiving x-rays from the x-ray source; and  an x-ray spectrometer disposed for receiving x-rays from the concentrator wherein the concentrator comprises a point-to-parallel glass capillary bundle coupled to a parallel-to-point glass capillary bundle with no intervening element between the point-to-parallel capillary bundle and the parallel-to-point glass capillary bundle, thereby providing point-to-point concentration of the x-rays. 32. The system of  claim 31  wherein the coupling occurs through vacuum or gas over a variable distance. claim 31 33. The system of  claim 8  wherein the energy dispersive detector is selected from the group comprising microcalarimeter, lithium-drifted silicon detector, germanium detector, proportional counter, gas sintilation proportional counter and gas proportional counter. claim 8 34. The system of  claim 30  wherein the wavelength dispersive x-ray spectrometer uses at least one flat Bragg crystal. claim 30 35. The system of  claim 30  wherein the wavelength dispersive x-ray spectrometer uses at least one Bragg crystal in the Johann configuration or von Hamos configuration. claim 30 36. The system of  claim 21 , wherein the spiral is made of glass, plastic foil, aluminum foil, quartz ribbon, silicon or germanium. claim 21 37. The system of  claim 36  wherein the plastic foil is polyester, kapton, melinex, hostaphan, apilcal, or mylar. claim 36 38. The system of  claim 36  wherein the plastic foil is ESTAR. claim 36 39. The system of  claim 37  wherein the foil is 0.002 to 0.015 inches thick or any thickness that allows the foil to be bent into a spiral. claim 37 40. The system of  claim 36  wherein the spiral is coated with a thin layer of metal. claim 36 41. The system of  claim 40  wherein the metal is a high Z metal. claim 40 42. The system of  claim 41  wherein the high Z metal is nickel, gold or iridium. claim 41 43. The system of  claim 36  wherein the spiral is coated with multilayers. claim 36