Patent Number: 
Section: claims

1. A grating with a large aspect ratio, comprising:a multiplicity of recurring alternating grating webs and grating gaps, each of the respective grating webs including a height; anda multiplicity of filler beams, respectively arranged in the grating gaps with a spacing from one another in a direction of the gaps, each of the respective filler beams connecting respectively adjacent grating webs over the respective height of the grating webs, wherein the grating webs and the grating gaps run from a first to a second side of the grating, and the filler beams each include a width in a direction of the gaps, the width being at most 10% of the spacing between two adjacent filler beams, and wherein the spacings between respective adjacent ones of the filler beams in each of the grating gaps do not vary by more than 10% in the entire grating. 2. The grating as claimed in claim 1, wherein the spacings between the respective adjacent filler beams in each of the grating gaps are the same in the entire grating within the scope of procedural accuracy. 3. The grating as claimed in claim 1, wherein the spacing (1) between two of the filler beams in one of the grating gaps satisfies the following geometric condition:      l    =                  k        h            ·                        (                      p            2                    )                3              ,where k is a constant, h is a height and p is the recurrence of the grating. 4. The grating as claimed in claim 3, wherein the constant k is less than 5000 μm−1. 5. The grating as claimed in claim 3, wherein the constant k lies in the range between 750 μm−1 and 2500 μm−1. 6. The grating as claimed in claim 1, wherein the filler beams are positioned randomly in one of the grating gaps whilst maintaining the separation criterion. 7. The grating as claimed in claim 1, wherein, in each grating gap, there is a first filler beam adjacent to the first side of the grating, wherein the first filler beam includes a spacing (x) from the first side of the grating, the spacing (x) varying within the following geometric conditions:(l−5 μm)≧x≧5 μm. 8. The grating as claimed in claim 1, wherein a width of the filler beams is not more than 3 μm in a direction of the gaps. 9. The grating as claimed in claim 1, wherein edge-side filler beams in a grating gap are elongated in a direction of the gaps if the spacing of the edge-side beams from the edge of the grating is smaller than a set value. 10. The grating as claimed in claim 1, wherein, during production of the grating, a primary structure is firstly generated by a lithography method and the grating is produced as a negative impression of the primary structure. 11. The grating as claimed in claim 10, wherein the lithography method is an X-ray lithography method. 12. The grating as claimed in claim 10, wherein the grating is produced by electrodeposition in the primary structure. 13. The grating as claimed in claim 10, wherein the primary structure is generated by a negative photoresist, in particular SU-8. 14. The grating as claimed in claim 1, wherein the grating is arranged on a grating base. 15. The grating as claimed in claim 1, wherein the grating is arranged on a foil. 16. A CT system, comprising at least one grating as claimed in claim 1. 17. The grating as claimed in claim 1, wherein the grating is an X-ray optical grating. 18. The grating as claimed in claim 1, wherein the grating is produced by a lithography method. 19. A CT system, comprising at least one grating as claimed in claim 18.