Patent Number: 055127592
Section: claims

1. A condenser system for collecting synchrotron radiation from a synchrotron source that emits a fan of synchrotron emission light in the plane of the source and for illuminating the ringfield of a camera, comprising: collecting means, positioned about the periphery of a synchrotron source, for collecting a plurality of synchrotron light beams emitted from the fan of synchrotron emission light and for transforming the plurality of synchrotron light beams into a plurality of arc-shaped light beams, each one of the plurality of arc-shaped light beams having an arc-shaped cross-section;  processing means, succeeding said collecting means, for rotating and directing the plurality of arc-shaped light beams toward the real entrance pupil of a camera and for positioning a plurality of substantially parallel arc-shaped light beams at the real entrance pupil of the camera; and  imaging means, succeeding said processing means, for converging the substantially parallel arc-shaped light beams, for transmitting the plurality of the substantially parallel arc-shaped light beams through a resistive mask and into the virtual entrance pupil of the camera, and for illuminating the ringfield of the camera.  said collecting means comprises at least two spherical mirrors, wherein one of the at least two spherical mirrors is concave and one of the at least two spherical mirrors is convex;  said processing means comprises at least one correcting mirror, succeeding the at least two spherical mirrors, and a plurality of flat mirrors are positioned at a real entrance pupil of the camera and arranged in a symmetrical pattern within the real entrance pupil; and  said imaging means comprises a spherical mirror that is concave. 2. The condenser system of claim 1, wherein: 3. The condenser system of claim 2, wherein the processing means rotates and directs the arc-shaped light beams toward the real entrance pupil of the camera in a symmetrical pattern to coincide with the symmetrical pattern of the plurality of flat mirrors. 4. The condenser system of claim 2, wherein the at least one correcting mirror is a flat mirror. 5. The condenser system of claim 2, wherein the symmetrical pattern of the light beams is arranged to produce uniform coherence properties for features on the resistive mask oriented at any angle. 6. The condenser system of claim 2, wherein the at least two spherical mirrors emit the plurality of arc-shaped light beams in a plane normal to the plane of the fan of synchrotron emission light and the correcting mirror receives the plurality of arc-shaped light beams from the at least two spherical mirrors and emits corresponding arc-shaped light beams in the plane of the fan of synchrotron emission light. 7. The condenser system of claim 2, wherein one of the at least two spherical mirrors is positioned below the plane of the fan of synchrotron emission light. 8. The condenser system of claim 2, wherein the plurality of flat mirrors emit the substantially parallel arc-shaped light beams. 9. The condenser system of claim 8, wherein the plurality of flat mirrors are individually tilted to emit the substantially parallel arc-shaped light beams. 10. The condenser system of claim 1, wherein said imaging means causes the arc-shaped light beams to be superimposed with respect to each other and formed a single arc-shaped composite beam that directly coincides with the ringfield of the camera. 11. The condenser system of claim 1, wherein the arc-shaped light beams received by the imaging means are substantially coplanar with respect to the plane of the fan of synchrotron emission light. 12. The condenser system of claim 1, wherein the imaging means is configured to image a ringfield with a width of W.gtoreq.100 .mu.m. 13. The condenser system of claim 1, wherein said collecting means collects synchrotron emission light over an arc of at least 100 mrad. 14. The condenser system of claim 1, wherein said collecting means collects synchrotron emission light over an arc of at least 200 mrad. 15. The condenser system of claim 1, wherein said collecting means, said processing means, and said imaging means comprise a plurality of multi-layer mirrors. 16. The condenser system of claim 1, wherein said collecting means collect synchrotron emission light in the wavelength range of .lambda.=50 to 700 .ANG.. 17. The condenser system of claim 1, wherein said collecting means collect synchrotron emission light at the wavelength of .lambda.=134 .ANG..