Patent Number: 
Section: claims

1. An illumination system, comprising: a plurality of primary light sources having wavelengthsxe2x89xa6193 nm; and  an optical unit for combining said plurality of primary light sources, said optical unit having a first plurality of raster elements for transforming said plurality of primary light sources into a plurality of secondary light sources,  wherein each of said first plurality of raster elements is reflective and is imaged into a plane to form one of a plurality of images. 2. The illumination system of  claim 1 , wherein each of said first plurality of raster elements has a concave surface. claim 1 3. The illumination system of  claim 1 , comprising a collector unit. claim 1 4. The illumination system of  claim 3 , wherein each of said first plurality of raster elements has a planar surface, and wherein said collector unit and said first plurality of raster elements transform said plurality of primary light sources into said plurality of secondary light sources. claim 3 5. The illumination system of  claim 1 , wherein each of said first plurality of raster elements is arranged and oriented to superimpose said plurality of images in said plane to form an illuminated field. claim 1 6. The illumination system of  claim 5 , claim 5 wherein said optical unit comprises a structure having a plurality of sides,  wherein each of said plurality of sides corresponds to one of said plurality of primary light sources, and  wherein said first plurality of raster elements is arranged on said plurality of sides. 7. The illumination system of  claim 6 , wherein each of said plurality of sides is oriented to superimpose said plurality of images in said plane. claim 6 8. The illumination system of  claim 1 , wherein said optical unit further comprises a second plurality of raster elements. claim 1 9. The illumination system of  claim 8 , claim 8 wherein each of said plurality of secondary light sources is located on one of said second plurality of raster elements, and  wherein each of said first plurality of raster elements and each of said second plurality of raster elements superimposes said plurality of images in said plane to form an illuminated field. 10. The illumination system of  claim 9 , wherein each of said second plurality of raster elements has a concave surface. claim 9 11. The illumination system of  claim 9 , claim 9 wherein said optical unit comprises a structure having a plurality of sides,  wherein each of said plurality of sides corresponds to one of said plurality of primary light sources, and  wherein said second plurality of raster elements is arranged on said plurality of sides. 12. The illumination system of  claim 11 , wherein each of said plurality of sides superimposes said plurality of images in said plane to form an illuminated field. claim 11 13. The illumination system of  claim 9 , claim 9 wherein said optical unit comprises a plurality of structures,  wherein each of said plurality of structures has a plurality of sides,  wherein each of said plurality of sides corresponds to one of said plurality of primary light sources, and  wherein each of said second plurality of raster elements is arranged on one of said plurality of sides. 14. The illumination system of  claim 13 , wherein each of said plurality of sides superimposes said plurality of images in said plane to form an illuminated field. claim 13 15. The illumination system of  claim 14 , wherein each of said second plurality of raster elements has a concave surface. claim 14 16. The illumination system of  claim 14 , wherein each of said second plurality of raster elements has a planar surface. claim 14 17. The illumination system of  claim 9 , wherein each of said second plurality of raster elements has a planar surface. claim 9 18. The illumination system of  claim 1 , further comprising an optical element and an exit pupil, wherein said optical element is situated in an optical light path between said plurality of secondary light sources and said plane, to image said plurality of secondary light sources into said exit pupil. claim 1 19. A projection exposure system comprising: the illumination system of  claim 1 ;  claim 1 a mask located in said plane;  a projection objective lens; and  a light-sensitive object on a carrier system, wherein an image of said mask is formed on said light-sensitive object. 20. A method for production of microelectronic components, comprising the step of using said projection exposure system of  claim 19 . claim 19 21. The illumination system of  claim 6 , wherein said structure is in a shape of a pyramid. claim 6 22. The illumination system of  claim 11 , wherein said structure is in a shape of a pyramid. claim 11 23. The illumination system of  claim 13 , wherein said plurality of structures are each in a shape of a pyramid. claim 13 24. The illumination system of  claim 8 , claim 8 wherein said optical unit comprises a structure having a plurality of sides,  wherein each of said plurality of sides corresponds to one of said plurality of primary light sources, and  wherein said second plurality of raster elements is arranged on said plurality of sides. 25. The illumination system of  claim 8 , claim 8 wherein said optical unit comprises a plurality of structures,  wherein each of said plurality of structures has a plurality of sides,  wherein each of said plurality of sides corresponds to one of said plurality of primary light sources, and  wherein each of said second plurality of raster elements is arranged on one of said plurality of sides.