Scanning system for differential phase contrast imaging

The invention claimed is: 1. An X-ray device for imaging an object, comprising: an X-ray emitter arrangement, and an X-ray detector arrangement, wherein the X-ray emitter arrangement is adapted to emit an X-ray beam through the object onto the X-ray detector arrangement, wherein the X-ray beam is spatially at least partially coherent, wherein the X-ray beam is fan-shaped, wherein the X-ray detector arrangement comprises a phase grating and an absorber grating, wherein the X-ray detector arrangement comprises a detector for detecting X-rays, wherein the X-ray detector is an area detector, wherein the X-ray device is adapted to generate image data from the detected X-rays and to extract phase information from the X-ray image data, the phase information relating to a phase shift of X-rays caused by the object, wherein the object has a region of interest which is larger than a detection area of the X-ray detector and the X-ray device is adapted to generate image data of the region of interest by moving the object and the X-ray detector arrangement relative to each other, wherein the X-ray emitter arrangement comprises an X-ray source with switchable emitter lines, wherein the X-ray emitter arrangement, in a direction of relative movement, of the X-ray detector arrangement with respect to the X-ray emitter arrangement, that is orthogonal to the beam, is larger than the X-ray detector arrangement, wherein the X-ray device is adapted to switch the emitter lines such that solely the emitter lines opposite to the X-ray detector arrangement are switched on. 2. The X-ray device of claim 1 , wherein the X-ray emitter lines are adapted to generate said X-ray beam, wherein the X-ray emitter lines comprises a cathode with carbon nanotubes. 3. The X-ray device of claim 1 , further comprising: an actuator for moving the object with respect to the x-ray emitter arrangement and the x-ray detector arrangement; an actuator for moving the X-ray detector arrangement with respect to the object; an actuator for moving at least one of the X-ray emitter arrangement and the X-ray detector arrangement around the object; or any combination of the actuators. 4. The X-ray device of claim 1 , wherein the X-ray device is adapted to move at least one of the phase grating, the absorber grating and a source grating such that the at least one grating remains fixed with respect to the object, when relative movement among any of the object, the X-ray emitter arrangement and the X-ray detector arrangement occurs. 5. The X-ray device of claim 1 , wherein the X-ray device is adapted to analyze an X-ray intensity of the X-rays at the X-ray detector arrangement during a first scan step. 6. The X-ray device of claim 5 , wherein the X-ray device is adapted to set an intensity of the X-rays emitted by the X-ray emitter arrangement for a second scan step based on the analyzed X-ray intensity of the first scan step. 7. The X-ray device of claim 5 , wherein the X-ray device is adapted to set a scan speed of a second scan step based on the analyzed X-ray intensity of the first scan step. 8. An X-ray device for imaging an object, comprising: an X-ray emitter arrangement, and an X-ray detector arrangement, wherein the X-ray emitter arrangement is adapted to emit an X-ray beam through the object onto the X-ray detector arrangement, wherein the X-ray beam is spatially at least partially coherent, wherein the X-ray beam is fan-shaped, wherein the X-ray detector arrangement comprises a phase grating and an absorber grating, wherein the X-ray detector arrangement comprises a detector for detecting X-rays, wherein the X-ray detector is an area detector, wherein the X-ray device is adapted to generate image data from the detected X-rays and to extract phase information from the X-ray image data, the phase information relating to a phase shift of X-rays caused by the object, wherein the object has a region of interest which is larger than a detection area of the X-ray detector and the X-ray device is adapted to generate image data of the region of interest by moving the object and the X-ray detector arrangement relative to each other, wherein said device has a focal spot, and wherein the movement-based generating entails rotating said X-ray detector arrangement around an axis that goes through said focal spot while said focal spot remains stationary. 9. The X-ray device of claim 8 , said rotating being performed to cover a larger field of view than obtained without said rotating. 10. The X-ray device of claim 8 , wherein said object includes a person having a torso that has a longitudinal direction, said beam passing through said torso at an angle transverse to said longitudinal direction. 11. The X-ray device of claim 8 , wherein the beam is cone-shaped with two dimensions of the cone orthogonal to an axis of the cone being equal or differing. 12. A non-transitory computer-readable medium embodying a computer program for controlling an X-ray device, said program having instructions executable by a processor for performing a plurality of acts, from among said plurality there being the acts of: generating a fan-shaped X-ray beam that is spatially at least partially coherent, transmitting the X-ray beam through an object, a phase grating and an absorber grating onto an X-ray area detector, generating image data from X-rays detected by the X-ray area detector, extracting phase information from the image data, the phase information relating to a phase shift of X-rays caused by the object; moving, relative to each other, the object and an X-ray detector arrangement comprising said X-ray area detector; and generating image data of a region of interest of the object, wherein the region of interest is larger than a detection area of the X-ray area detector, wherein said X-ray beam has a focal spot and among said plurality there further being the act of rotating said X-ray detector arrangement around an axis that goes through said focal spot while said focal spot remains stationary. 13. The computer readable medium of claim 12 , wherein said object includes a person having a torso that has a longitudinal direction, said beam passing through said torso at an angle transverse to said longitudinal direction. 14. The computer readable medium of claim 12 , wherein said generating is such that said beam is cone-shaped with two dimensions of the cone orthogonal to an axis of the cone being equal or differing. 15. A non-transitory computer readable medium embodying a computer program for controlling an X-ray device, said program having instructions executable by a processor for performing a plurality of acts, from among said plurality there being the acts of: emitting, via an X-ray emitter arrangement, an X-ray beam through the object onto an X-ray detector arrangement, wherein the X-ray beam is spatially at least partially coherent, wherein the X-ray beam is fan-shaped, wherein the X-ray detector arrangement comprises a phase grating and an absorber grating, wherein the X-ray detector arrangement comprises a detector for detecting X-rays, wherein the X-ray detector is an area detector; generating, via said X-ray device, image data from the detected X-rays; extracting phase information from the X-ray image data, the phase information relating to a phase shift of X-rays caused by the object, wherein the object has a region of interest which is larger than a detection area of the X-ray detector; generating image data of the region of interest by moving the object and the X-ray detector arrangement relative to each other, wherein the X-ray emitter arrangement