Apparatus and method for PET detector

What is claimed is: 1. A positron emission tomography (PET) detector, comprising: a crystal array comprising a plurality of crystal elements and light-splitting structures, the light-splitting structures defining a light output surface of the crystal array jointly, wherein all of the plurality of crystal elements are arranged in a single layer and the light-splitting structures are mounted on at least one side surface of each of only a part of the plurality of crystal elements; and a semiconductor sensor array comprising a plurality of semiconductor sensors for receiving photons from the light output surface, each of the plurality of semiconductor sensors contacting at least a portion of the light output surface of the crystal array. 2. The PET detector according to claim 1 , wherein a light-splitting structure includes a light-reflective membrane or a light-reflective coating. 3. The PET detector according to claim 1 , wherein the semiconductor sensor array covers each crystal element of the crystal array. 4. The PET detector according to claim 1 , wherein the semiconductor sensor array covers a portion of the light output surface of the crystal array. 5. The PET detector according to claim 1 , wherein more than one of the plurality of crystal elements in the crystal array are operably coupled with each of at least one semiconductor sensor of the semiconductor sensor array. 6. The PET detector according to claim 1 , wherein the plurality of crystal elements are in contact with the plurality of semiconductor sensors directly or through an adhesive material. 7. The PET detector according to claim 1 , wherein a distance between two adjacent semiconductor sensors is larger than a distance between two adjacent crystal elements. 8. The PET detector according to claim 1 , wherein at least a portion of the plurality of semiconductor sensors have a same size. 9. The PET detector according to claim 1 , wherein at least a portion of the plurality of crystal elements have a same length. 10. The PET detector according to claim 1 , wherein a center-of-gravity of the semiconductor sensor array coincides with a center-of-gravity of the crystal array. 11. The PET detector according to claim 1 , wherein each of the plurality of crystal elements includes a first surface from which gamma rays enter, a second surface that is opposite to the first surface, and four side surfaces between the first surface and the second surface. 12. The PET detector according to claim 11 , wherein the semiconductor sensor array is operably connected to a driver board, each of the plurality of semiconductor sensors having a light-receiving surface and a contact surface that is opposite to the light-receiving surface, the light-receiving surface being configured for receiving photons excited by the gamma rays from the second surfaces of the plurality of crystal elements, and the contact surface being in direct contact with the driver board. 13. The PET detector according to claim 11 , wherein an area of a side surface of one of the plurality of crystal elements where a specific light-splitting structure is mounted is equal to an area of the specific light-splitting structure. 14. The PET detector according to claim 11 , wherein two light-splitting structures mounted on two of the four side surfaces of a crystal element have different lengths. 15. The PET detector according to claim 11 , wherein two light-splitting structures mounted on two of the four side surfaces of a crystal element have a same length. 16. The PET detector according to claim 11 , wherein two light-splitting structures mounted on two side surfaces of two of the plurality of crystal elements have different lengths. 17. The PET detector according to claim 11 , wherein two light-splitting structures mounted on two side surfaces of two of the plurality of crystal elements have a same length. 18. The PET detector according to claim 11 , wherein two light-splitting structures mounted on two side surfaces of two of the plurality of crystal elements have different areas. 19. The PET detector according to claim 1 , wherein the light-splitting structures on the surfaces of the crystal elements are set based on at least one of light-receiving areas of the semiconductor sensors, positions of the semiconductor sensors, or positions of the semiconductor sensors relative to a position of the crystal array. 20. The PET detector according to claim 1 , wherein a count or positions of the semiconductor sensors relate to a spatial resolution of the crystal elements in an image.