Phase contrast imaging

The invention claimed is: 1. A device for phase contrast imaging of an object, the device comprising: first, second, and third independently movable sliders; a source connected to the first slider and configured to issue an X-ray beam having an optical axis for producing absorption-based and phase contrast images; a detector connected to the second slider and configured to detect the X-ray beam; and a grating arrangement including a plurality of gratings connected to the third slider between the object and the source and between the object and the detector for moving out of the optical axis of the X-ray beam to produce the absorption-based images, and within the optical axis of the X-ray beam to produce phase contrast images; an input device configured to select a region-of-interest within the absorption-based image; a variable aperture configured to adapt a field-of-view of the X-ray beam to the region-of-interest on the phase contrast images. 2. The device of claim 1 , further comprising a processing unit configured for local tomography. 3. The device of claim 1 , wherein the grating arrangement includes at least one of a source grating, a diffracting grating and an analyzer grating, wherein the source grating is located between the source and the object, and wherein the diffracting grating and the analyzer grating are located between the object and the detector. 4. The device of claim 1 , wherein a width of the grating arrangement is smaller than a width of the X-ray beam, so that a portion of the X-ray beam passes through the grating arrangement, when the grating arrangement is located within the X-ray beam. 5. The device of claim 1 , wherein the grating arrangement is movable in a plane perpendicular to a main direction of the X-ray beam. 6. The device of claim 1 , further comprising an actuator configured to move the grating arrangement. 7. The device of claim 1 , further comprising a monitor configured to visualize the absorption-based image and a phase contrast image of the region-of-interest. 8. The device of claim 1 , wherein the input device moves the grating arrangement to cover the selected region-of-interest. 9. The device of claim 1 , wherein the variable aperture changes a width of the X-ray beam to a width and a position of the grating arrangement. 10. A method for phase contrast imaging of an object, the method comprising the acts of: providing a source connected to an independently movable first slider for issuing an X-ray beam having an optical axis through a portion of the object, a detector connected to an independently movable second slider and configured to detect the X-ray beam, a grating arrangement including a plurality of gratings connected to a third independently moving slider between the object and the source and between the object and the detector for moving within and out of the optical axis of the X-ray beam between the source and a detector; producing absorption-based images by moving the grating arrangement out of the optical axis of the X-ray beam and phase contrast images by moving the grating arrangement within the optical axis of the X-ray beam; selecting a region-of-interest within the absorption-based image; adapting a field-of-view of the X-ray beam to the region-of-interest; the detector detecting X-ray beam transmission data from different projection angles; and a processor generating an image based on the detected transmission data. 11. The method of claim 10 , further comprising acts of performing a qualitative assessment of adjacent detector pixels, and visualizing the absorption-based image and a phase contrast image of the region-of-interest. 12. The method of claim 10 , further comprising the act of: moving the grating arrangement out of the optical axis of the X-ray beam, generating an image of a portion of the object without the grating arrangement in the X-ray beam, and moving the grating arrangement between the source for the X-ray beam, the object and the detector so that a source grating is located between the source and the object, a diffracting grating and an analyzer grating are located between the object and the detector, and so that a portion of the X-ray beam passes through the grating arrangement. 13. The method of claim 10 , wherein the grating arrangement is moved in a plane perpendicular to a direction of the X-ray beam. 14. The method of claim 10 , further comprising the act of shifting at least one of the gratings for carrying out a phase stepping approach. 15. A non-transitory computer readable medium comprising computer instructions which, when executed by a processor, configure the processor to perform a method for phase contrast imaging of an object, the method comprising the acts of: providing a source connected to a first slider for issuing an X-ray beam having an optical axis through a portion of the object, a detector connected to a second slider and configured to detect the X-ray beam, and a grating arrangement including a plurality of gratings connected to a third slider between the object and the source and between the object and the detector for moving within and out of the optical axis of the X-ray beam between the source and a detector, each slider is independently movable; producing absorption-based images by moving the grating arrangement out of the optical axis of the X-ray beam and phase contrast images by moving the grating arrangement within the optical axis of the X-ray beam; selecting a region-of-interest within the absorption-based image; adapting a field-of-view of the X-ray beam to the region-of-interest; moving the grating arrangement between the source for the X-ray beam, the object and the detector so that a source grating of the plurality of gratings is located between the source and the object, a diffracting grating and an analyzer grating of the plurality of gratings are located between the object and the detector, and so that a portion of the X-ray beam passes through the grating arrangement; acquiring the X-ray beam from different projection angles by the detector; and generating an image of a portion of the object without the grating arrangement in the X-ray beam.