Patent Number: 056278721
Section: claims

1. 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: 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 exit window having a cylindrical cross-section and a thickness such that said window can withstand a pressure differential of 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; and,  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.  a preaccelerator;  a beam transport line;  an electron storage ring for generating an x-ray beam;  an exposure chamber for holding a semiconductor wafer to be exposed to the x-ray beam, said semiconductor wafer having an exposure field; and  a lithography beamline for connecting the electron storage ring to the exposure chamber having a stationary exit window for sealing the lithography beamline from the exposure chamber, said exit window having:  a frame for mounting the exit window, said frame having an opening;  a thin material disposed within said opening of said frame having a window section, a peripheral section integral with said window section which extends within the frame, and a thickness; and  said window section is a cylindrical sector having a radius of curvature 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. 2. The method of scanning an X-ray beam emitted from an X-ray lithography beamline onto an exposure field as claimed in claim 1 wherein the scanning step further includes the step of attenuating X-rays emitted from the X-ray beam as passed through the exit window above and below a predetermined energy band. 3. An x-ray lithography system for manufacturing semiconductor devices comprising: 4. The x-ray lithography system of claim 3 wherein the opening in said frame of said exit window is slightly larger than a cross-sectional area of the x-ray beam generated by said electron storage ring to allow the exit window to be stationary relative to the x-ray beam. 5. The x-ray lithography system of claim 3 wherein the opening in said frame of said exit window is equal to or larger than the exposure field. 6. The x-ray lithography system of to claim 5 wherein said opening of said exit window is rectangular in shape. 7. The x-ray lithography system of claim 5 wherein said thin material of said exit window has a predetermined thickness to attenuate x-rays above and below a desired energy band. 8. The x-ray lithography system of claim 7 wherein said desired energy band is between 800 and 1800 eV. 9. The x-ray lithography system of claim 7 wherein said thin material of said exit window is beryllium. 10. The x-ray lithography system of claim 9 wherein said thin material of said exit window is formed of beryllium having a thickness ranging from 16 to 25 microns.