Patent Number: 
Section: claims

1. An X-ray phase imaging apparatus comprising:an X-ray source;a detection unit configured to detect X-rays emitted from the X-ray source;a plurality of gratings arranged between the X-ray source and the detection unit to allow the X-rays emitted from the X-ray source to pass therethrough, each of the plurality of gratings comprising a plurality of slits extending in a slit extension direction and arranged in a slit pitch direction;a moving mechanism configured to move 1) a subject arranged between the X-ray source and the detection unit, or 2) an imaging system composed of the X-ray source, the detection unit and the plurality of gratings, along the slit extension direction or along the slit pitch direction; andan image processing unit configured to generate a phase-contrast image based on a plurality of images acquired based on signals detected by the detection unit with the subject and the imaging system being relatively moved with respect to each other,wherein at least one of the plurality of gratings is composed of a plurality of grating portions arranged along a third direction perpendicular to a first direction in which the subject or the imaging system is moved by the moving mechanism and a second direction in which the X-ray source, the detection unit, and the plurality of gratings are arranged,wherein the plurality of grating portions are arranged so that adjacent grating portions overlap when viewed in the first direction,wherein a gap region sandwiched by grating regions is formed between the plurality of grating portions arranged along the third direction, andwherein the plurality of grating portions are arranged such that adjacent grating portions overlap when viewed in the first direction so that at least the grating region is included in the first direction throughout the third direction. 2. The X-ray phase imaging apparatus as recited in claim 1,wherein the image processing unit is configured to generate the phase-contrast image based on a pixel value of each pixel in the plurality of images and phase information on a moiré fringe generated in the plurality of images, andwherein the plurality of grating portions are arranged such that adjacent grating portions overlap when viewed in the first direction so that at least one period of the moiré fringe is included in the first direction throughout the third direction. 3. The X-ray phase imaging apparatus as recited in claim 1,wherein each of the plurality of grating portions form a polygonal shape when viewed in the second direction, andwherein a pair of adjacent grating portions of the plurality of grating portions are arranged adjacent to each other along the third direction, the pair of adjacent grating portions having opposing sides that face each other, each opposing side including a portion extending in a direction intersecting with the first direction when viewed in the second direction, so that the pair of adjacent grating portions overlap when viewed in the first direction. 4. The X-ray phase imaging apparatus as recited in claim 3,wherein each of the plurality of grating portions comprise a pair of opposite sides that extend in the third direction,wherein each of the opposing sides of the pair of adjacent grating portions extend between and connect to the corresponding pair of opposite sides of the corresponding one of the pair of adjacent grating portions, andwherein the entirety of each of the opposing sides of the pair of adjacent grating portions extend in the direction intersecting with the first direction between the corresponding pair of opposite sides of the corresponding one of the pair of adjacent grating portions when viewed in the second direction. 5. The X-ray phase imaging apparatus as recited in claim 3,wherein the plurality of grating portions are arranged such that the opposing sides of the pair of grating portions that intersect with the first direction are substantially parallel to each other when viewed in the second direction. 6. The X-ray phase imaging apparatus as recited in claim 3,wherein the moving mechanism is configured to move the subject or the imaging system along the slit extension direction, andwherein the plurality of grating portions are arranged side by side along an arc having a convex arc shape toward a detection unit side when viewed in the first direction. 7. The X-ray phase imaging apparatus as recited in claim 1,wherein the moving mechanism is configured to continuously move the subject or the imaging system in 1) the direction along which the gratings extend or 2) along the direction of the grating pitch, andwherein the image processing unit is configured to generate the phase-contrast image based on continuous images acquired by continuously performing imaging with the subject and the imaging system being relatively moved with respect to each other. 8. The X-ray phase imaging apparatus as recited in claim 1, wherein each of the plurality of grating portions form parallelogram shape when viewed in the second direction. 9. The X-ray phase imaging apparatus as recited in claim 1, wherein the gap region is larger than a grating pitch of the grating portions. 10. The X-ray phase imaging apparatus as recited in claim 1, wherein, with respect to a view in the second direction, the gap region has a substantially constant width. 11. The X-ray phase imaging apparatus as recited in claim 1, wherein, with respect to the projection view in the second direction, the slit extension direction is parallel to the first sides and the second sides and extends in the third direction. 12. The X-ray phase imaging apparatus as recited in claim 1, wherein the plurality of grating portions of the at least one of the plurality of gratings is arranged in a single column arranged along the third direction. 13. An X-ray phase imaging apparatus comprising:an X-ray source;a detection unit configured to detect X-rays emitted from the X-ray source;a plurality of gratings arranged between the X-ray source and the detection unit to allow the X-rays emitted from the X-ray source to pass therethrough, each of the plurality of gratings comprising a plurality of slits extending in a slit extension direction and arranged in a slit pitch direction;a moving mechanism configured to move 1) a subject arranged between the X-ray source and the detection unit, or 2) an imaging system composed of the X-ray source, the detection unit and the plurality of gratings, along the slit extension direction or along the slit pitch direction; andan image processing unit configured to generate a phase-contrast image based on a plurality of images acquired based on signals detected by the detection unit with the subject and the imaging system being relatively moved with respect to each other,wherein at least one of the plurality of gratings is composed of a plurality of grating portions arranged along a third direction perpendicular to a first direction in which the subject or the imaging system is moved by the moving mechanism and a second direction in which the X-ray source, the detection unit, and the plurality of gratings are arranged,wherein the plurality of grating portions are arranged so that adjacent grating portions overlap when viewed in the first direction,wherein, with respect to a projection view in the second direction, the plurality of grating portions each have a first side and second side opposite to and parallel with the first side, the first sides of the grating portions extending in the third direction and being colinear with each other and the second sides extending in the third direction and being colinear with each other, andwherein, with respect to the projection view in the second direction, for each pair of adjacent grating portions, a first side of one of the pair of adjacent grating portions and a second side of the other of the pair of adjacent grating portions overlap each other with respect to the first direction.