Patent Number: 
Section: claims

1. A collector system comprising:a first collector mirror having a passage therethrough; anda second collector mirror,wherein said first collector mirror receives EUV light from a light source at a first aperture angle via a first beam path, and reflects said EUV light at a second aperture angle along a second beam path,wherein said first aperture angle is larger than or substantially equal to said second aperture angle,wherein said second collector mirror receives said EUV light from said first collector mirror at said second aperture angle, and reflects said EUV light through said passage, andwherein the collector system is an oblique mirror type normal incidence mirror collector system. 2. The collector system of claim 1, wherein said first collector mirror is a concave normal incidence mirror. 3. The collector system of claim 1, wherein at least one of said first collector mirror or said second collector mirror has a conical part for the shaping of a reflection surface. 4. The collector system of claim 1, wherein at least one of said first collector mirror or said second collector mirror comprises a cooling device. 5. The collector system of claim 1, further comprising a raster spectral filter. 6. The collector system of claim 1, wherein at least one of said first collector mirror or said second collector mirror comprises a mirror surface having a raster spectral filter thereon. 7. The collector system of claim 1, wherein said first beam path, but not said second beam path, passes through a region next to said light source at a distance of greater than about 100 mm to said light source. 8. The collector system of claim 1,wherein said first collector mirror is located at a distance (d) from said light source, andwherein said light source is at a center of a region having a radius of greater than or equal to d/5, within which said second beam path does not pass. 9. The collector system of claim 8, wherein in said region, said light source is enclosed in a compartment whose atmosphere is separated from a remainder of an illumination system. 10. The collector system of claim 9, further comprising, in said region, a component selected from the group consisting of a particle filter, and a particle trap. 11. The collector system of claim 9, wherein said region is subject to a field that diverts a charged particle from said region. 12. The collector system of claim 1, wherein said collector system generates a real intermediate image of said light source. 13. The collector system of claim 12, wherein said real intermediate image is a magnified intermediate image. 14. The collector system of claim 1, wherein said second collector mirror is a normal-incidence mirror. 15. The collector system of claim 1, wherein said second collector mirror is adjustable in its position and its orientation relative to said first collector mirror. 16. An illumination system comprising:a light source for EUV light;a field plane; andthe collector system of claim 1, in a path of said EUV light from said light source to said field plane. 17. The illumination system of claim 16, further comprising:a first optical element with first raster elements; anda second optical element with second raster elements,wherein said first and second optical elements are disposed in the said path downstream of said collector system and upstream of said field plane. 18. The illumination system of claim 17, further comprising an optical component for illumination of a field in said field plane, wherein said optical component is disposed in said path downstream of second optical element and upstream of said field plane. 19. The illumination system of claim 16, further comprising an optical component for illumination of a field in said field plane, wherein said optical component is disposed in said path downstream of said collector system and upstream of said field plane. 20. A projection exposure unit, comprising the collector system of claim 1. 21. A method of producing a microelectronic component, comprising employing the projection exposure unit of claim 20. 22. A collector system comprising:a first collector mirror having a passage therethrough; anda second collector mirror,wherein said first collector mirror (a) receives EUV light via a first beam path from a light source, with a numerical aperture (NA) greater than or equal to about 0.5, and (b) reflects said EUV light into a second beam path proceeding to said second collector mirror,wherein said second collector mirror receives said EUV light from said first collector mirror, and reflects said EUV light through said passage, andwherein the collector system is an oblique mirror-type normal incidence mirror collector system. 23. The collector system of claim 22, wherein said first collector mirror is a concave normal incidence mirror. 24. A collector system comprising:a first collector mirror having a passage therethrough; anda second collector mirror,wherein said first collector mirror (a) receives EUV light from a light source at a first aperture angle, and reflects said EUV light at a second aperture angle, and (b) is a concave normal-incidence mirror,wherein said first aperture angle is larger than or substantially equal to said second aperture angle, andwherein said second collector mirror (a) is positioned so that a straight line between said light source and a vertex of said first collector mirror does not intersect a mirror surface of said second collector mirror, (b) receives said EUV light from said first collector mirror at said second aperture angle, and (c) reflects said EUV light through said passage. 25. A collector system comprising:a first collector mirror having a passage therethrough; anda second collector mirror,wherein said first collector mirror (a) receives EUV light from a light source via a first beam path, with a numerical aperture (NA) greater than or equal to about 0.5, (b) reflects said EUV light into a second beam path proceeding to said second collector mirror, and (c) is a concave normal-incidence mirror, andwherein said second collector mirror (a) is positioned so that a straight line between said light source and a vertex of said first collector mirror does not intersect a mirror surface of said second collector mirror, (b) receives said EUV light from said first collector mirror, and (c) reflects said EUV light through said passage.