Patent Number: 061577030
Section: claims

1. A polychromatic x-ray source comprising: an x-ray stepping beam source comprising a target assembly, said target assembly comprising electron beam illumination areas and non-illumination areas;  a beam hardening sheet, said beam hardening sheet formed of a material having a first x-ray absorption quality, said beam hardening sheet comprising a plurality of areas, said plurality of areas having a second x-ray absorption quality, and said beam hardening sheet having a first position and a second position;  an actuator, said actuator comprising an engagement mechanism, said engagement mechanism engaging said beam hardening sheet such that when said actuator is actuated, said engagement mechanism moves said beam hardening sheet between said first position and said second position; and  when said beam hardening sheet is in said first position, said material having said first x-ray absorption quality is substantially aligned over said illumination areas and said plurality of areas having said second x-ray absorption quality are not in said illumination areas, and when said beam hardening sheet is in said second position, said plurality of areas having said second x-ray absorption quality are substantially aligned over said illumination areas.  an x-ray stepping beam source comprising a target assembly, said target assembly comprising electron beam illumination areas and non-illumination areas;  a beam hardening sheet, said beam hardening sheet formed of a material having a first x-ray absorption quality, said beam hardening sheet comprising a plurality of areas, said plurality of areas having a second x-ray absorption quality, and said beam hardening sheet having a first position and a second position;  an actuator, said actuator comprising an engagement mechanism, said engagement mechanism engaging said beam hardening sheet such that when said actuator is actuated, said engagement mechanism moves said beam hardening sheet between said first position and said second position, when said beam hardening sheet is in said first position, said plurality of areas having said first x-ray absorption quality are substantially aligned over said illumination areas, and when said beam hardening sheet is in said second position, said plurality of areas having said second x-ray absorption quality are substantially aligned over said illumination areas; and  at least one more beam hardening sheet, said at least one more beam hardening sheet arranged in the x-ray beam path, and said at least one more beam hardening sheet formed of a material having a third x-ray absorption quality, said at least one more beam hardening sheet comprising a plurality of areas, said plurality of areas of said one more beam hardening sheet having a fourth x-ray absorption quality.  a collimator, said collimator comprising a plurality of x-ray transmissive areas, said x-ray transmissive areas disposed about said collimator in a first arrangement;  a beam hardening sheet, said beam hardening sheet having a plurality of areas disposed over an active area of said beam hardening sheet, said plurality of areas disposed over said active area in a second arrangement; and  an actuator, said actuator comprising an engagement mechanism, said engagement mechanism configured to move said beam hardening sheet between a first position and a second position, wherein when said beam hardening sheet is in said first position, said plurality of x-ray transmissive areas of said collimator and said plurality of areas of said beam hardening sheet are substantially aligned and when said beam hardening sheet is in said second position, said plurality of x-ray transmissive areas of said collimator and said plurality of areas of said beam hardening sheet are not substantially aligned.  said beam hardening sheet comprising a receiver, said receiving at a substantially rectangular shape;  said engagement mechanism comprising:  a collimator, said collimator comprising a plurality of x-ray transmissive areas, said x-ray transmissive areas disposed about said collimator in a first arrangement;  a beam hardening sheet, said beam hardening sheet having a plurality of areas disposed over an active area of said beam hardening sheet, said plurality of areas disposed over said active area in a second arrangement;  an actuator, said actuator comprising an engagement mechanism, said engagement mechanism configured to move said beam hardening sheet between a first position and a second position, wherein said plurality of areas are arranged with said plurality of x-ray transmissive areas; and  at least one more beam hardening sheet, said at least one more beam hardening sheet substantially parallel to said beam hardening sheet, said at least one more beam hardening sheet having a plurality of areas disposed over an active area of said at least one more beam hardening sheet, said plurality of areas of said at least one more beam hardening sheet disposed over said active area of said at least one more beam hardening sheet in a third arrangement, said first arrangement and said third arrangement substantially similar.  said beam hardening sheet comprising a receiver, said receiving at a substantially rectangular shape;  said engagement mechanism comprising:  a beam hardening sheet, said beam hardening sheet having a first x-ray absorption quality, said beam hardening sheet comprising an array of areas having a second x-ray absorption quality; and  an actuator engaging said beam hardening sheet, said actuator configured to move said beam hardening sheet such that an x-ray beam is absorbed according to said first x-ray absorption quality and said x-ray beam is not absorbed according to said second x-ray absorption quality of said beam hardening sheet, or such that an x-ray beam is absorbed according to said second x-ray absorption quality of said beam hardening sheet.  intercepting the x-ray beam with an x-ray beam hardening filter, said x-ray beam hardening filter having a first x-ray absorption quality and an array of areas having a second x-ray absorption quality; and  moving said x-ray beam hardening filter along a path no greater than three times a greatest distance between two adjacent areas in said array of areas (1) such that the x-ray beam does not pass through said array of areas having a second absorption quality whereby said x-ray beam hardening filter exhibits the first x-ray absorption quality or (2) such that the x-ray beam passes through said array of areas having a second absorption quality whereby said x-ray beam hardening filter exhibits the second x-ray absorption quality.  selectively interposing two or more of said plurality of beam hardening sheets into said x-ray beam; and  varying, an x-ray absorption quality of said x-ray beam hardening filter by said act of selectively interposing said two or more of said plurality of beam hardening sheets.  sensing a position of said x-ray beam hardening filter;  returning a signal indicative of the position of said x-ray beam hardening filter; and  in response to said act of returning said signal indicative of the position, modifying the position of said x-ray beam hardening filter. 2. The polychromatic x-ray source of claim 1, wherein said plurality of areas having said second x-ray absorption quality comprises a plurality of apertures. 3. The polychromatic x-ray source of claim 1, wherein said plurality of areas having said second x-ray absorption quality are evenly distributed about an active area of said beam hardening sheet, and wherein any two adjacent areas of said plurality of areas having said second x-ray absorption quality are separated by a distance not less than the distance across any single area of said plurality of areas having said second x-ray absorption quality. 4. The polychromatic x-ray source of claim 1, said beam hardening sheet further comprising a support member, said support member surrounding an active area, and wherein said engagement mechanism engages said support member. 5. The polychromatic x-ray source of claim 1, further comprising a position sensor, said sensor configured to output signals indicative of whether said beam hardening sheet is in said first position or said second position. 6. A polychromatic x-ray source comprising: 7. The polychromatic x-ray source of claim 6, said at least one more beam hardening sheet adjacent to said beam hardening sheet. 8. The polychromatic x-ray source of claim 7, wherein when said beam hardening sheet is in said first position, said at least one more beam hardening sheet may be either in said first or said second position, and wherein when said beam hardening sheet is in said second position, said at least one more beam hardening sheet may be either in said first or said second position. 9. The polychromatic x-ray source of claim 6, wherein said plurality of areas having said second x-ray absorption quality comprises a plurality of apertures. 10. The polychromatic x-ray source of claim 6, wherein said plurality of areas having said second x-ray absorption quality are evenly distributed about an active area of said beam hardening sheet, and wherein any two adjacent areas of said plurality of areas having said second x-ray absorption quality are separated by a distance not less than the distance across any single area of said plurality of areas having said second x-ray absorption quality. 11. The polychromatic x-ray source of claim 6, said beam hardening sheet further comprising a support member, said support member surrounding an active area, and wherein said engagement mechanism engages said support member. 12. The polychromatic x-ray source of claim 6, further comprising a position sensor, said sensor configured to output signals indicative of whether said beam hardening sheet is in said first position or said second position. 13. An x-ray beam hardening filter assembly comprising: 14. The x-ray beam hardening filter assembly of claim 13: 15. The x-ray beam hardening filter assembly of claim 13, wherein said plurality of areas comprises a multidimensional array of apertures, said multidimensional array of apertures evenly distributed about said active area of said beam hardening sheet. 16. An x-ray beam hardening filter assembly comprising: 17. The x-ray beam hardening filter assembly of claim 16: 18. The x-ray beam hardening filter assembly of claim 16, wherein said plurality of areas comprises a multidimensional array of apertures, said multidimensional array of apertures evenly distributed about said active area of said beam hardening sheet. 19. The x-ray beam hardening filter assembly of claim 16, said first arrangement and said second arrangement are substantially aligned. 20. An x-ray beam hardening filter comprising: 21. The x-ray beam hardening filter of claim 20, said beam hardening sheet comprising two or more of said array areas having said second x-ray absorption quality, said two or more array of said areas forming a multidimensional array of areas having said second x-ray absorption quality. 22. The x-ray beam hardening filter of claim 20, wherein movement of said array of areas relative to a fixed location is not greater than a distance of approximately three times a greatest spacing between two adjacent areas of array of areas. 23. A method for hardening an x-ray beam comprising: 24. The method of claim 23, the x-ray beam hardening filter further comprising a plurality of beam hardening sheets, said method further comprising: 25. The method of claim 23, further comprising: