Multi-spectral static CT apparatuses

What is claimed is: 1. A multi-spectral static Computerized Tomography (CT) apparatus, comprising: a conveyor mechanism configured to carry and move an object under inspection in a direction along a path; a distributed ray source comprising a plurality of ray source spots that are provided in a plane generally perpendicular to the direction of the object's movement, wherein the plurality of ray source spots at least partially surround the path of the object, and are configured to emit X-rays toward the path in order to penetrate the object; a detection device comprising a plurality of detection units configured to receive X-rays penetrating the object and having a first energy response, the plurality of detection units having the first energy response provided in a first plane generally parallel to a plane of the distributed ray source such that at least one detection unit of the detection units having the first energy response is at an opposite side of the path passing through the first plane to at least one other detection unit of the detection units having the first energy response, and comprising a plurality of detection units configured to receive X-rays penetrating the object and having a second energy response, the plurality of detection units having the second energy response provided adjacent to the plurality of detection units having the first energy response in the direction of the object's movement and the plurality of detection units having the second energy response provided in a second plane generally parallel to the plane of the distributed ray source such that at least one detection unit of the detection units having the second energy response is at an opposite side of the path passing through the second plane to at least one other detection unit of the detection units having the second energy response; an acquisition device coupled to the detection device and configured to convert the X-rays detected by the detection units having the first energy response into a first digital signal and the X-rays detected by the detection units having the second energy response into a second digital signal; and a processing device coupled to the acquisition device and configured to reconstruct a CT image of the object based on the first and second digital signals. 2. The CT apparatus according to claim 1 , wherein the detection units having the first energy response and/or detection units having the second energy response have filters. 3. The CT apparatus according to claim 2 , wherein each of the ray source spots comprises a carbon-nanotube X-ray tube. 4. The CT apparatus according to claim 1 , wherein the first energy response is a response substantially to a low energy component in the X-rays, and the second energy response is a response substantially to a high energy component in the X-rays; and the processing device is configured to reconstruct high-energy and low-energy attenuation coefficient images of the object based on the first and second digital signals. 5. The CT apparatus according to claim 4 , wherein the processing device is configured to reconstruct values of atomic number and/or electron density of the object based on the first and second digital signals. 6. The CT apparatus according to claim 1 , wherein the detection device further comprises a plurality of detection units configured to receive X-rays penetrating the object and having a third energy response, the plurality of detection units having the third energy response provided adjacent to the plurality of detection units having the second energy response in the direction of the object's movement and the plurality of detection units having the third energy response provided in a third plane generally parallel to the plane of the distributed ray source; the acquisition device converts the X-rays detected by the detection units having the third energy response of detectors into a third digital signal; and the processing device is configured to reconstruct a CT image of the object based on the first, second and third digital signals. 7. A multi-spectral static Computerized Tomography (CT) apparatus, comprising: a conveyor mechanism configured to carry and move an object under inspection in a direction along a path; a first scanning stage comprising: a first distributed ray source comprising a plurality of ray source spots that are provided in a plane generally perpendicular to a direction of the object's movement, wherein the plurality of ray source spots at least partially surround the path of the object, and are configured to emit X-rays toward the path in order to penetrate the object, and a plurality of detection units configured to receive X-rays penetrating the object and having a first energy response, wherein the plurality of detection units having the first energy response are provided in a first plane generally parallel to a plane of the first distributed ray source such that at least one detection unit of the detection units having the first energy response is at an opposite side of the path passing through the first plane to at least one other detection unit of the detection units having the first energy response; a second scanning stage provided in series with the first scanning stage in the direction of the object's movement, the second scanning stage comprising: a second distributed ray source comprising a plurality of ray source spots that are provided in a plane generally perpendicular to a direction of the object's movement, wherein the plurality of ray source spots at least partially surround the path of the object, and are configured to emit X-rays toward the path in order to penetrate the object, and a plurality of detection units configured to receive X-rays penetrating the object and having a second energy response, wherein the plurality of detection units having the second energy response are provided in a second plane generally parallel to the plane of the second distributed ray source such that at least one detection unit of the detection units having the second energy response is at an opposite side of the path passing through the second plane to at least one other detection unit of the detection units having the second energy response; an acquisition device configured to convert the X-rays detected by the detection units having the first energy response into a first digital signal and the X-rays detected by the detection units having the second energy response into a second digital signal; and a processing device coupled to the acquisition device and configured to reconstruct a CT image of the object based on the first and second digital signals. 8. The CT apparatus according to claim 7 , wherein the first distributed ray source generates rays having a spectrum different from that of rays generated by the second distributed ray source. 9. The CT apparatus according to claim 7 , wherein the plurality of detection units having the first energy response and/or plurality of detection units having the second energy response have filters. 10. The CT apparatus according to claim 7 , wherein each of the ray source spots comprises a carbon-nanotube X-ray tube. 11. The CT apparatus according to claim 7 , wherein the first energy response is a response substantially to a low energy component in the X-rays, and the second energy response is a response substantially to a high energy component in the X-rays; and the processing device is configured to reconstruct high-energy and low-energy attenuation coefficient images of the object based on the first and second digital signals. 12. The CT apparatus according to claim 11 , wherein the processing device is configured to reconstruct