Multi-detector systems and methods for x-ray imaging

The invention claimed is: 1. An x-ray imaging system comprising: a gantry configured rotate about a pivot axis; an x-ray source coupled to the gantry and configured to emit x-rays along a path extending to define an axial axis; and an x-ray detector system coupled to the gantry and configured to receive x-rays traveling from the x-ray source along the path, wherein the x-ray detector system includes: an energy-integrating x-ray detector having an array of energy-integrating x-ray sensors that are configured to sense x-rays emitted from the x-ray source; a photon-counting detector having another array of photon-counting x-ray sensors configured to determine an interaction between individual x-ray photons from the x-ray source and individual photon-counting x-ray sensors; wherein both the energy-integrating detector and the photon-counting detector are configured to receive the x-rays emitted from the x-ray source simultaneously; and wherein the energy-integrating x-ray sensors define a first shape and the photon-counting x-ray sensors define a second shape, wherein the first shape is a first rectangle having a space formed therein to receive the second shape, wherein the second shape is an elongated strip intersecting a second rectangle, wherein a width of the second rectangle is greater than a width of the elongated strip and a length of the second rectangle is smaller than a length of the elongated strip. 2. The system of claim 1 , wherein the array of energy-integrating x-ray sensors of the energy-integrating x-ray detector defines a first sensing area, wherein the array of photon-counting x-ray sensor of the photon-counting detector defines a second sensing area, and wherein the first sensing area and the second sensing area, together, define a detecting area of the x-ray detector system. 3. The system of claim 1 , wherein the array of energy-integrating x-ray sensors of the energy-integrating x-ray detector and the array of photon-counting x-ray sensors of the photon-counting detector, together, form a continuous detector surface of the x-ray detector system. 4. The system of claim 1 , wherein the array of energy-integrating x-ray sensors of the energy-integrating x-ray detector surround the array of photon-counting x-ray sensors of the photon-counting detector. 5. The system of claim 1 , wherein the energy-integrating detector and the photon-counting detector share processing electronics. 6. The system of claim 1 , wherein data from the energy-integrating detector and data from the photon-counting detector share are integrated to form an image of a subject arranged in the path. 7. The system of claim 6 , further comprising a processing system configured to receive data from the energy-integrating detector and data from the photon-counting detector and reconstruct at least one of: an axial image; a spectral image; a two-dimensional region-of-interest image; a three-dimensional image; a spectral cone-beam image; or a full field-of-view image. 8. The system of claim 7 , wherein the processing system is configured to reconstruct the full field-of-view image by combining data from the energy-integrating detector and data from the photon-counting detector. 9. The system of claim 8 , wherein the processing system is configured to combine data from the energy-integrating detector and data from the photon-counting detector by: weighting the data from the photon-counting detector by an energy bin to create a weighted image; apply an image filtration to the weighted image to create a synthesized flat-panel detector image; reconstruct a flat-panel detector image using the data from the energy-integrating detector; perform stitching and gap filling to integrate the synthesized flat-panel detector image with the flat-panel detector image. 10. The system of claim 1 , wherein the photon-counting detector is inset within the energy-integrating detector to form a single detector panel. 11. A method of controlling an x-ray imaging system including a gantry, an x-ray source coupled to the gantry, and a multi-detector assembly having an energy-integrating detector array and a photon-counting detector array, the method comprising: operating the x-ray source to direct x-rays to the multi-detector assembly; acquiring energy-integrating x-ray imaging data in response to receiving the x-rays at the energy-integrating detector array; simultaneously with receiving the x-rays at the energy-integrating detector array, acquiring photon-counting x-ray imaging data in response to receiving the x-rays at the photon-counting detector array; and reconstructing an image of the subject using at least one of the energy-integrating x-ray imaging data or the photon-counting x-ray imaging data; wherein the energy-integrating detector array defines a first shape and the photon-counting detector array defines a second shape, wherein the first shape is a first rectangle having a space formed therein to receive the second shape, wherein the second shape is an elongated strip intersecting a second rectangle, wherein a width of the second rectangle is greater than a width of the elongated strip and a length of the second rectangle is smaller than a length of the elongated strip. 12. The method of claim 11 , wherein reconstructing the image includes: weighting the photon-counting x-ray data by an energy bin to create a weighted image; apply an image filtration to the weighted image to create a synthesized flat-panel detector image; reconstruct a flat-panel detector image using the energy-integrating x-ray imaging data; perform stitching and gap filling to integrate the synthesized flat-panel detector image with the flat-panel detector image. 13. The method of claim 11 , further comprising selecting between selecting at least one of: an axial image; a spectral image; a two-dimensional region-of-interest image; a three-dimensional image; a spectral cone-beam image; or a full field-of-view image. 14. An x-ray detector system comprising: an energy-integrating x-ray detector having an array of energy-integrating x-ray sensors that are configured to sense x-rays emitted from an x-ray source and generate energy-integrating x-ray data; a photon-counting detector having another array of photon-counting x-ray sensors configured to determine an interaction between individual x-ray photons with individual photon-counting x-ray sensors to generate photon-counting x-ray data; electronics configured to receive the energy-integrating x-ray data and the photon-counting x-ray data simultaneously; and wherein the energy-integrating x-ray sensors define a first shape and the photon-counting x-ray sensors define a second shape, wherein the first shape is a first rectangle having a space formed therein to receive the second shape, wherein the second shape is an elongated strip intersecting a second rectangle, wherein a width of the second rectangle is greater than a width of the elongated strip and a length of the second rectangle is smaller than a length of the elongated strip. 15. The system of claim 14 , wherein the photon-counting detector is inset with in the energy-integrating detector to form an integrated detector panel.