Patent Number: 
Section: claims

1. An interferometer grating support of an imaging system configured for grating-based x-ray imaging, comprising:at least two elongate supports separated from each other by a non-zero distance, wherein the at least two elongate supports have a first end and a second end;a first arc shaped grating affixed to the first end of the at least two elongate supports; anda second arc shaped grating affixed to the second end of the at least two elongate supports;wherein the first arc shaped grating includes a source grating of an interferometer and the second arc shaped grating includes a phase or absorber grating of the interferometer. 2. The grating support of claim 1, further comprising:a bowtie filter disposed between the at least two elongate supports, the first arc shaped grating, and the second arc shaped grating. 3. The grating support of claim 1, wherein a distance between the first arc shaped grating and the second arc shaped grating is a value between eight and thirty centimeters. 4. The grating support of claim 1, wherein a distance between the first arc shaped grating and the second arc shaped grating is on an order of ten or twenty centimeters. 5. The grating support of claim 1, wherein a first arc of the first arc shaped grating and a second arc of the second arc shaped grating follow perimeters of concentric circles with a center point corresponding to a focal spot location in the system. 6. The grating support of claim 1, wherein the at least two elongate supports taper from the second arc shaped grating to the first arc shaped grating and are symmetric about a vertical line through a center of the at least two elongate supports. 7. An imaging system configured for grating-based x-ray imaging, comprising:a gantry;a radiation source located at the gantry;a detector array disposed across an examination region from the radiation source;a grating support disposed between the radiation source and the examination region; andan interferometer, including:a first arc shaped source grating;a second arc shaped phase grating, wherein the grating support supports the first arc shaped source grating and the second arc shaped phase grating; andan absorber grating disposed between the examination region and the detector array. 8. The imaging system of claim 7, further comprising:a support bracket configured to support only the grating support. 9. The imaging system of claim 7, further comprising:a support bracket configured to support the grating support and at least one other beam conditioning component. 10. The imaging system of claim 9, further comprising:a sub-system configured to move the support bracket within the sub-system to position the grating support or the at least one other beam conditioning component in a path of an x-ray beam. 11. The imaging system of claim 9, further comprising:a low energy photon filter disposed between the radiation source and the first arc shaped source grating, wherein the grating support supports the low energy photon filter. 12. The imaging system of claim 9, further comprising:a beam collimator disposed between the second arc shaped phase grating and the examination region, wherein the grating support supports the beam collimator. 13. The imaging system of claim 7, further comprising:a low energy photon filter disposed between the radiation source and the first arc shaped source grating. 14. The imaging system of claim 7, further comprising:a beam collimator disposed between the second arc shaped phase grating and the examination region. 15. The imaging system of claim 7, further comprising:a bowtie filter between the first arc shaped source grating and the second arc shaped phase grating. 16. The imaging system of claim 15, wherein the grating support includes:at least two elongate supports separated from each other by a non-zero distance, wherein the first arc shaped source grating is affixed to a first end of the at least two elongate supports, the second arc shaped phased grating is affixed to a second end of the at least two elongate supports, and the bowtie filter is disposed between the at least two elongate supports, the first arc shaped source grating, and the at second arc shaped phase grating. 17. The imaging system of claim 16, wherein a distance between the at least two elongate supports at the first end is less than a distance between the at least two elongate supports at the second end. 18. A non-transitory computer readable medium configured with computer executable instructions which when executed by a processor cause the processor to:move a grating support configured to support source and phase gratings of an interferometer and a bowtie filter into a region between a low energy photon filter and a beam collimator located between a radiation source and an examination region for a grating-based x-ray imaging scan. 19. The non-transitory computer readable medium of claim 18, wherein the instructions further cause the processor to:control the radiation source to emit x-ray radiation;control a detector array to detect the emitted x-ray radiation and generate a signal indicative thereof; andcontrol a reconstructor to reconstruct the signal and generate a phase contrast image. 20. The non-transitory computer readable medium of claim 18, wherein the instructions further cause the processor to:move the grating support out of the region between the low energy photon filter and the beam collimator; andmove a different beam conditioning component into the region between the low energy photon filter and the beam collimator for a conventional scan. 21. The non-transitory computer readable medium of claim 20, wherein the instructions further cause the processor to:control the radiation source to emit x-ray radiation;control a detector array to detect the emitted x-ray radiation and generate a signal indicative thereof; andcontrol a reconstructor to reconstruct the signal and generate a conventional image.