Patent Number: 055240429
Section: claims

1. An exit window for sealing an X-ray lithography beamline from an exposure chamber comprising: a frame for mounting the exit window, said frame having an opening;  a thin material having a window section disposed within said opening of said frame, a peripheral section integral with said window section which extends within the frame, and a thickness; and  said window section having a shape that is substantially concave along its width and substantially linear along its length and tapering to a flat surface at said peripheral section such that said thin material can withstand a pressure differential between said X-ray lithography beamline and said exposure chamber of at least 14.7 psi.  a frame for mounting the exit window, said frame having an opening; and  a thin material mounted within said opening, said thin material having a radius of curvature along predetermined portions of its length and widths converging to a flat surface along its edges and a thickness to withstand a pressure differential between said X-ray lithography beamline and said exposure chamber of at least 14.7 psi, wherein an X-ray beam emitted from the beamline and passed through the thin material has X-rays above and below a predetermined energy band substantially attenuated.  positioning a stationary exit window having an opening that is approximately equal to the exposure field between said X-ray lithography beamline and said wafer, said opening having a thin material mounted therein, said thin material having a radius of curvative along predetermined portions of its length and width, converging to a flat surface along its edges and a thickness that can withstand a pressure differential of at least 14.7 psi;  drawing a vacuum within said lithography beamline such that there is a pressure differential of at least 14.7 psi between the X-ray lithography beamline and an exposure chamber containing the wafer;  scanning the X-ray beam between first and second positions such that the X-ray beam passes through the exit window and is incident on the wafer between first and second edges of the exposure field;  attenuating X-rays emitted from the X-ray beam as passed through the exit window above and below a predetermined energy band. 2. The exit window of claim 1 wherein said opening of said frame has a rectangular shape having a length of 50 mm and a width of 25 mm. 3. The exit window of claim 2 wherein said peripheral section of said thin material has a length of 120 mm and a width of 42 mm. 4. The exit window of claim 1 wherein said thin material has a predetermined thickness to attenuate X-rays above and below a desired energy band. 5. The exit window of claim 1 wherein said thin material is formed of beryllium having a thickness of between 16 and 25 microns. 6. The exit window of claim 4 wherein said desired energy band is between 800 and 1800 eV. 7. The exit window of claim 4 wherein a radius of curvature of said window section is greater than two inches. 8. The exit window of claim 1 wherein the opening in said frame is equal to or larger than an exposure field on a wafer disposed in the exposure chamber to provide a stationary exit window. 9. The exit window of claim 1 wherein the opening in said frame is slightly larger than a cross-sectional area of an X-ray beam emitted from the X-ray beamline to allow the exit window to be stationary relative to the X-ray beam. 10. The exit window of claim 1 wherein said frame comprises first and second members each having said opening and an integral shoulder extending perpendicularly from one end thereof, said thin material being sandwiched between said first and second members. 11. The exit window of claim 10 wherein said thin material is fastened between said first and second frame members by two pins located at opposite ends of said shoulders of first and second frame members. 12. The exit window of claim 11 further including a seal means disposed within said first frame member completely surrounding said opening and abutting said thin material sandwiched between said first and second frame members. 13. An exit window for sealing an X-ray lithography beamline from an exposure chamber comprising: 14. The exit window of claim 13 wherein said thin material has a window section disposed within said opening of said frame and a peripheral section which is integral with said window section and extends within the frame. 15. The exit window of claim 14 wherein said opening of said frame has a rectangular shape having a length of 50 mm and a width of 25 mm. 16. The exit window of claim 15 wherein said peripheral section of said thin material has a length of 120 mm and a width of 42 mm. 17. The exit window of claim 13 wherein said thin material is formed of beryllium having a thickness of between 16 and 25 microns. 18. The exit window of claim 13 wherein the opening in said frame is equal to an exposure field on a wafer disposed in the exposure chamber to provide a stationary exit window. 19. A method of scanning an X-ray beam emitted from an X-ray lithography beamline onto an exposure field on a wafer comprising the steps of: