Patent Number: 
Section: claims

1. A deflection device for X-ray differential phase-contrast imaging, comprising:a deflection structure comprising a parabolic phase profile,the deflection structure comprising:a first plurality of first areas adapted to change a phase, or an amplitude, or both, of X-ray radiation; anda second plurality of second areas that are transparent to the X-ray radiation,the first and second areas being arranged periodically such that, in the cross section, the deflection structure is provided with a profile arranged such that projections exist in the first areas, and recesses exist in the second areas, adjacent projections forming respective side surfaces partly enclosing the respective recess arranged therebetween,wherein the side surfaces of each respective recess has a varying distance across the depth of the recess, andwherein each projection comprises at least two steps between a lower part of the projection and an upper part of the projection. 2. The deflection device according to claim 1, wherein an intensity profile is reproduced at a distance of less than 1/16  of a Talbot distance. 3. The deflection device according to claim 1, wherein the profile of the deflection structure is provided with a discretized shape. 4. The deflection device according to claim 1, wherein the first areas are provided with a plurality of projection shapes; wherein the different projection shapes are arranged in a repetitive order. 5. The deflection device according to claim 1, wherein the profile of the deflection structure is provided as a plurality of curved profile segments, and the segments are generated by wrapping back curve segments by π or an integer multiple of π. 6. A detector arrangement of an X-ray system, the detector arrangement configured to generate phase-contrast images of an object, the detector arrangement comprising:a phase grating;an analyzer grating; anda detector comprising a sensor adapted to record intensity variations of X-ray radiation, wherein the phase grating is provided as the deflection device according to claim 1. 7. An X-ray image acquisition device configured to generate phase-contrast images of an object, the X-ray acquisition device comprising:an X-ray source configured to generate X-ray radiation;a phase grating;an analyzer grating; anda detector, wherein the X-ray image acquisition device is adapted to provide an X-ray beam with sufficient coherence that interference exists at a location of the analyzer grating, the phase grating, the analyzer grating and the detector being provided as the detector arrangement according to claim 6. 8. The X-ray image acquisition device according to claim 7, comprising:a source grating comprising a source grating pitch, and adapted to split the X-ray radiation of the X-ray source generating the at least partly coherent X-ray radiation, andwherein a ratio of the source grating pitch to an analyzer grating pitch is equal to a ratio of a distance between the source grating and the phase grating to a distance between the phase grating and the analyzer grating. 9. An X-ray imaging system for differential phase contrast imaging, comprising:the X-ray image acquisition device according to claim 7, and configured to generate phase-contrast images;a processor adapted to control the X-ray source and phase-stepping of the analyzer grating and/or the phase grating; andan interface adapted to provide detected raw image data to the processor. 10. A method for differential phase contrast imaging, the method comprising:applying at least partly coherent X-ray radiation to an object of interest;applying the X-ray radiation passing the object to a phase grating recombining the splitted beams in an analyzer plane;applying the recombined beams to an analyzer grating arranged in the analyzer plane;recording raw image data with a sensor while transversely stepping an analyzer grating or a phase grating with multiple steps with a step size of at most p/(n*k); andwherein p is a pitch of the analyzer grating or the phase grating, n is a reciprocal of a duty cycle of the analyzer grating, and k is larger than 1, and the phase grating in is the deflection device according to claim 1. 11. A non-transitory computer readable medium comprising instructions stored thereon, executable on a processor, to cause the processor to control the deflection device according to claim 1. 12. The deflection device according to claim 1, wherein the parabolic phase profile does not comprise sharp-edges, or stepped portions, in the first plurality of first areas between the second plurality of second areas. 13. An absorption device for X-ray differential phase-contrast imaging, comprising:an absorption structure, comprising:a first plurality of first absorption areas that are opaque to X-rays; anda second plurality of second absorption areas that are transparent to X-rays, the first absorption areas and second absorption areas being arranged periodically such that, in the cross section, the absorption structure is provided with an absorption profile such the first absorption areas comprise absorption projections that partly enclosing the second absorption areas therebetween, said second absorption areas comprising X-ray transparent fillings, wherein the transparent fillings each comprises a wider cross section than a width of the absorption projections. 14. The absorption device according to claim 13, wherein the absorption device is an analyzer grating. 15. The absorption device according to claim 13, wherein, over one pitch, a ratio of the cross-sectional area of first absorption areas to the cross sectional area of the second absorption areas is less than 1:1. 16. The absorption device according to claim 15, wherein, over one pitch, the ratio of the cross-sectional area of the first absorption areas to the cross sectional area of the second absorption areas is 1:8. 17. The absorption device according to claim 14, wherein a duty cycle of the analyzer grating is less than 50%. 18. The absorption device according to claim 17, wherein the duty cycle of the analyzer grating is less than 20%. 19. A deflection device for X-ray differential phase-contrast imaging, comprising:a deflection structure, comprising a plurality of periods,the deflection structure comprising:a first plurality of first areas adapted to change a phase, or an amplitude, or both, of X-ray radiation; anda second plurality of second areas that are transparent to the X ray radiation the first and second areas being arranged periodically such that, in the cross section,the deflection structure is provided with a profile arranged such that projections exist in the first areas, and recesses exist in the second areas, adjacent projections forming respective side surfaces partly enclosing the respective recess arranged therebetween,wherein the side surfaces of each respective recess has a varying distance across the depth of the recess, andwherein at least one period of the periodically arranged first and second area is configured to allow the deflection structure to function, at least as per a shape of the deflection structure, as a micro-lense structure for focusing the X-ray radiation such that, at a distance from the micro-lens structure, at least one intensity maximum is obtained. 20. The deflection device according to claim 19, wherein the profile of the deflection structure is provided with a discretized shape. 21. The deflection device according to claim 19, wherein the first areas are provided with a plurality of projection shapes; wherein the different projection shapes are arranged in a repetitive order. 22. The deflection device according to claim 19, wherein the profile of the deflection structure is provided as a plurality of curved profile segments, and the plurality of curved profile segments are generated by wrapping back curve segments by π or an integer multiple of π. 23. The deflection device according to claim 19, wherein an intensity profile is reproduced at a distance of less than 1/16  of a Talbot distance. 24. The deflection device according to claim 19, wherein the parabolic phase profile does not comprise sharp-edges, or stepped portions, in the first plurality of first areas between the second plurality of second areas.