Patent Number: 
Section: claims

1. An illumination system for wavelengths xe2x89xa6193 nm, comprising: a first raster element upon which a light bundle emitted from a light source impinges, for producing a convergent light bundle having a focal point; and  a second raster element, wherein said convergent light bundle impinges on said second raster element outside said focal point. 2. An illumination system for wavelengths xe2x89xa6193 nm, comprising: a first plurality of raster elements upon which a light bundle emitted from a light source impinges, for producing a plurality of convergent light bundles, wherein a member of said first plurality of raster elements produces a member of said plurality of convergent light bundles having a focal point; and  second plurality of raster elements, wherein said member of said plurality of convergent light bundles impinges on a member of said second plurality of raster elements outside said focal point. 3. The illumination system of  claim 2 , claim 2 wherein said member of said plurality of convergent light bundles is characterized by a numerical aperture NA and has a diameter Xxe2x80x2 at said focal point,  wherein said member of said second plurality of raster elements has a diameter D and is characterized by a defocusing xcex94z, and  wherein said defocusing xcex94z is given by: 4. The illumination system of  claim 2 , claim 2 wherein said illumination system is characterized by a distance s from said light source to said first plurality of raster elements, and a distance L from said first plurality of raster elements to said second plurality of raster elements,  wherein said light source has a diameter X,  wherein said member of said second plurality of raster elements has a diameter D,  wherein said member of said first plurality of raster elements is characterized by an extension FY that describes a longer of two extensions of said member of said first plurality of raster elements, and a focal distance f, and  wherein said focal distance f lies within the following boundaries:  xe2x80x83so that defocusing occurs. 5. The illumination system of  claim 2 , further comprising a collector unit in a light path before said first plurality of raster elements. claim 2 6. The illumination system of  claim 2 , further comprising a mirror in a light path after said second plurality of raster elements for imaging a plane in an exit pupil. claim 2 7. The illumination system of  claim 2 , further comprising a mirror in a light path after said second plurality of raster elements, wherein said second plurality of raster elements and said mirror image said member of said first plurality of raster elements in an object plane. claim 2 8. A projection exposure apparatus for microlithography, comprising: the illumination system of  claim 2 , for partially collecting said light bundle and guiding said light bundle for illuminating a ring field;  claim 2 a pattern-bearing mask on a carrier system, wherein said pattern-bearing mask lies in a plane of said ring field;  a projection device for imaging an illuminated part of said pattern-bearing mask in an image field; and  a light-sensitive substrate on a carrier system in said plane of said image field. 9. A method for producing a microelectronic component, comprising using the projection exposure apparatus of  claim 8 . claim 8 10. The illumination system of  claim 6 , wherein said plane is arranged in or in the vicinity of said second plurality of raster elements. claim 6 11. The illumination system of  claim 1 , claim 1 wherein said convergent light bundle is characterized by a numerical aperture NA and has a diameter X"" at said focal point,  wherein said second raster element has a diameter D and is characterized by a defocusing xcex94z, and  wherein said defocusing xcex94z is given by 12. The illumination system of  claim 1 , claim 1 so that defocusing occurs. wherein said illumination system is characterized by a distance s from said light source to said first raster element, and a distance L from said first raster element to said second raster element,  wherein said light source has a diameter X,  wherein said second raster element has a diameter D,  wherein said first raster element is characterized by an extension FY that describes a longer of two extensions of said first raster element, and a focal distance f, and  wherein said focal distance f lies within the following boundaries: 13. The illumination system of  claim 1 , further comprising a collector unit in a light path before said first raster element. claim 1 14. The illumination system of  claim 1 , further comprising a mirror in a light path after a second raster element for imaging a plane in an exit pupil. claim 1 15. The illumination system of  claim 14 , wherein said plane is arranged in or in the vicinity of said second raster element. claim 14 16. The illumination system of  claim 1 , further comprising a mirror in a light path after said second raster element, wherein said second raster element and said mirror image said first raster element in an object plane. claim 1 17. A projection exposure apparatus for microlithography comprising: the illumination system of  claim 1 , for partially collecting said light bundle and guiding said light bundle for illuminating a ring field;  claim 1 a pattern-bearing mask on a carrier system, wherein said pattern-bearing mask lies in a plane of said ring field;  a projection device for imaging an illuminated part of said pattern-bearing mask in an image field; and  a light-sensitive substrate on a carrier system in said plane of said imaging field. 18. A method for producing a microelectric component comprising using the projection exposure apparatus of  claim 17 . claim 17