Patent Number: 060758384
Section: claims

1. A plasma X-ray source comprising: a chamber defining a pinch region having a central axis;  a gas supply for introducing a gas mixture, comprising a primary X-radiating gas and a low atomic number diluent gas, into said pinch region;  a preionizing device disposed in proximity to said pinch region for preionizing the gas mixture in said pinch region to form a plasma shell that is symmetrical around said central axis; and  a pinch anode and a pinch cathode disposed at opposite ends of said pinch region for producing a current through said plasma shell in an axial direction and for producing an azimuthal magnetic field in said pinch region in response to application of a high energy electrical pulse to said pinch anode and said pinch cathode, whereby said azimuthal magnetic field causes said plasma shell to collapse to said central axis and to generate X-rays in a spectral range from 100 angstroms to 150 angstroms.  a chamber defining a pinch region having a central axis, said pinch region being substantially uniform along said central axis;  a gas supply coupled to said chamber for introducing a gas mixture comprising a primary X-radiating gas and a low atomic number diluent gas into said pinch region;  an RF electrode disposed around said pinch region for pre-ionizing the gas mixture in said pinch region to form a plasma shell that is symmetrical around said central axis in response to application of RF energy to said RF electrode; and  a pinch anode and a pinch cathode disposed at opposite ends of said pinch region for producing a current through said plasma shell in an axial direction and for producing an azimuthal magnetic field in said pinch region in response to application of a high energy electrical pulse to said pinch anode and pinch cathode, whereby said azimuthal magnetic field causes said plasma shell to collapse to said central axis and to generate X-rays in a spectral range from 100 angstroms to 150 angstroms.  introducing a gas mixture comprising a primary X-radiating gas and a low atomic number diluent gas into said pinch region;  preionizing the gas mixture in the pinch region to form a plasma shell that is symmetrical around the central axis; and  producing a current through said plasma in an axial direction and producing an azimuthal magnetic field in said pinch region, whereby said azimuthal magnetic field causes said plasma shell to collapse to said central axis and to generate X-rays in a spectral range from 100 angstroms to 150 angstroms.  a chamber defining a pinch region having a central axis;  a gas supply for introducing a gas mixture, comprising a primary X-radiating gas and a low atomic number diluent gas, into said pinch region;  a preionizing device disposed in proximity to said pinch region for preionizing the gas mixture in said pinch region to form a plasma shell that is symmetrical around said central axis; and  a pinch anode and a pinch cathode disposed at opposite ends of said pinch region for producing a current through said plasma shell in an axial direction and for producing an azimuthal magnetic field in said pinch region in response to application of a high energy electrical pulse to said pinch anode and said pinch cathode, whereby said azimuthal magnetic field causes said plasma shell to collapse to said central axis and to generate X-rays, wherein said primary X-radiating gas comprises xenon for generation of 134 angstrom xenon band radiation and wherein said diluent gas comprises helium. 2. A plasma X-ray source as defined in claim 1 wherein said diluent gas is selected from the group consisting of helium, hydrogen, deuterium, nitrogen and combinations thereof. 3. A plasma X-ray source as defined in claim 1 wherein said primary X-radiating gas is selected from the group consisting of xenon, argon, krypton, neon and oxygen. 4. A plasma X-ray source as defined in claim 1 wherein said primary X-radiating gas comprises xenon for generation of 134 angstrom xenon band radiation. 5. A plasma X-ray source as defined in claim 4 wherein said diluent gas comprises helium. 6. A plasma X-ray source as defined in claim 5 wherein said gas mixture comprises at least about 0.7% xenon. 7. A plasma X-ray source as defined in claim 1 wherein said gas mixture has substantially uniform pressure within said pinch region when said high energy electrical pulse is applied to said pinch anode and said pinch cathode. 8. A plasma X-ray source as defined in claim 1 wherein said gas mixture has a total pressure in said pinch region in a range of about 0.1 torr to 1.0 torr. 9. A plasma X-ray source as defined in claim 1 wherein said preionizing device comprises an RF electrode for preionizing the gas mixture in said pinch region in response to application of RF energy to said RF electrode. 10. A plasma X-ray source as defined in claim 1 wherein said chamber defines a substantially cylindrical pinch region. 11. A plasma X-ray source as defined in claim 1 wherein said preionizing device produces an axially uniform discharge in said pinch region. 12. A plasma X-ray source comprising: 13. A plasma X-ray source as defined in claim 12 wherein said primary X-radiating gas comprises xenon for generation of 134 angstrom xenon band radiation. 14. A plasma X-ray source as defined in claim 13 wherein said diluent gas comprises helium. 15. A plasma X-ray source as defined in claim 12 wherein said gas mixture has a total pressure in said pinch region in a range of about 0.1 torr to 1.0 torr. 16. A plasma X-ray source as defined in claim 12 wherein said pinch region is substantially cylindrical. 17. In a plasma X-ray source comprising a chamber defining a pinch region having a central axis, a method for generating X-rays comprising the steps of: 18. A method as defined in claim 17 wherein the step of introducing a gas mixture comprises introducing xenon as the primary X-radiating gas for a generation of 134 angstrom xenon band radiation. 19. A method as defined in claim 18 wherein the step of introducing a gas mixture further comprises introducing helium as the diluent gas. 20. A method as defined in claim 19 wherein the step of introducing a gas mixture further comprises the step of controlling the total pressure of said gas mixture in said pinch region in a range of about 0.1 torr to 1.0 torr. 21. A plasma X-ray source comprising: