Patent Number: 
Section: claims

1. An X-ray imaging apparatus, comprising:an X-ray source configured to emit X-ray radiation;an X-ray detector configured to detect the X-ray radiation;an interferometer arranged between said X-ray source and said detector, said interferometer comprising at least one interferometric grating, wherein said interferometric grating is tiltable around a first axis perpendicular to an optical axis of said X-ray imaging apparatus, such that the interferometric grating is capable of being oriented at different tilt angles relative to said first axis;at least one source grating arranged between the interferometric grating and the X-ray source, the source grating being configured to convert the X-ray radiation into X-ray radiation with increased coherence;a grating adapter mechanism configured to adapt for an effective grating pitch with respect to the source grating and/or the interferometer, wherein the grating adapter mechanism is configured to i) exchange the source grating for a new source grating having a different pitch, or ii) combine said source grating with another source grating having a different pitch in order to compensate for a change in effective path length through a space between said source grating and said interferometer. 2. The X-ray imaging apparatus as per claim 1, wherein said source grating is tiltable around a second axis parallel to the first axis, so as to maintain or re-establish a spatial relationship between said source grating and the interferometric grating. 3. The X-ray imaging apparatus; as per claim 1, wherein the grating adapter mechanism combines by superimposing two source gratings or by sliding the two source gratings relative to each other when the two source gratings are at least partly superimposed onto each other, so as to form a double decker grating structure having an effective pitch that compensates for said change in the effective path length caused by either one of said tilt angles. 4. The X-ray imaging apparatus as per claim 1, wherein said tilting of the source grating and/or the interferometric grating changes a design energy of said interferometer. 5. The X-ray imaging apparatus as per claim 1, comprising a translator stage configured to translate, relative to the optical axis, the interferometric grating and/or the source grating. 6. The X-ray imaging apparatus as per claim 1, wherein the interferometer further comprises a further grating being tiltable around a third axis parallel to said first axis, so as to maintain or tare-establish a spatial relationship between said interferometric grating and/or the source grating. 7. The X-ray imaging apparatus as per claim 6, wherein the interferometric grating and said further grating are arranged on mutually opposite sides of an examination region of the X-ray imaging apparatus. 8. The X-ray imaging apparatus as per claim 6, wherein the interferometric grating and said further grating are arranged on the same side of an examination region of the X-ray imaging apparatus. 9. The X-ray imaging apparatus as per claim 1, further comprising an X-radiation filter configured to broaden a spectral window around a design energy for a given tilt angle to facilitate collection of spectral information. 10. The X-ray imaging apparatus as per claim 9, wherein the X-radiation filter comprises a plurality of filter elements configured for different energies, the filter elements being arranged across the optical axis in an ascending or descending order in sequence according to their respective energies. 11. A method for operating an X-ray imaging apparatus, comprising:arranging an interferometer between an X-ray source configured to emit X-radiation and a detector configured to detect the X-ray radiation, said interferometer comprising at least one interferometric grating that is tiltable around a first axis perpendicular to an optical axis of said imaging apparatus, the interferometric grating being capable of being oriented at different tilt angles relative to the first axis;arranging at least one source grating between the interferometric grating and the X-ray source, the source grating being configured to convert the X-ray radiation into X-ray radiation with increased coherence;configuring a grating adapter mechanism to adapt for an effective grating pitch with respect to the source grating and/or the interferometer;receiving a specification of a design energy for the X-ray imaging apparatus; andin response to the design energy, tilting the interferometric grating and/or the source grating around the first axis, wherein the grating adapter mechanism is configured to i) exchange the source grating for a new source grating having a different pitch, or ii) combine said source grating with another source grating having a different pitch in order to compensate for a change in effective path length through a space between said source grating and said interferometer. 12. A non-transitory computer-readable medium having one or more executable instructions stored thereon, which, when executed by a processor, cause the processor to perform a method for operating an X-ray imaging apparatus, the method comprising:arranging an interferometer between an X-ray source configured to emit X-radiation and a detector configured to detect the X-ray radiation, said interferometer comprising at least one interferometric grating that is tiltable around a first axis perpendicular to an optical axis of said imaging apparatus, the interferometric grating being capable of being oriented at different tilt angles relative to the first axis;arranging at least one source grating between the interferometric grating and the X-ray source, the source grating being configured to convert the X-ray radiation into X-ray radiation with increased coherence;configuring a grating adapter mechanism to adapt for an effective grating pitch with respect to the source grating and/or the interferometer;receiving a specification of a design energy for the X-ray imaging apparatus; andin response to the design energy, tilting the interferometric grating and/or the source grating around the first axis, wherein the grating adapter mechanism is configured to i) exchange the source grating for a new source grating having a different pitch, or ii) combine said source grating with another source grating having a different pitch in order to compensate for a change in effective path length through a space between said source grating and said interferometer.