Apparatus and method for PET detector

The invention claimed is: 1. A positron emission tomography (PET) detector, the PET detector comprising: a crystal array, the crystal array comprising a plurality of crystal elements and a light-reflective coating mounted on a surface of each of the plurality of crystal elements, the light-reflective coatings defining a light output surface of the crystal array jointly; 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, wherein the light-reflective coatings mounted on the surface of each of the plurality of crystal elements being set based on an area of the light-reflective coatings, a relative location between the semiconductor sensors, and relative positioning between the semiconductor sensors and the crystal array. 2. The PET detector according to claim 1 , more than one of the plurality of crystal elements in the crystal array being coupled with one semiconductor sensor of the semiconductor sensor array. 3. The PET detector according to claim 2 , the coupling comprising a contact between the semiconductor sensors and the crystal elements directly or through an adhesive material. 4. The PET detector according to claim 1 , at least one semiconductor sensor of the semiconductor sensor array being coupled with each of the plurality of crystal elements in the crystal array. 5. The PET detector according to claim 1 , a center-of-gravity of the semiconductor sensor array coinciding with a center-of-gravity of the crystal array. 6. The PET detector according to claim 1 , the semiconductor sensor array completely or partially covering the light output surface. 7. The PET detector according to claim 1 further comprising a first amplifier, an input terminal of the first amplifier being connected with an output terminal of a semiconductor sensor in a predetermined row of the semiconductor sensor array. 8. The PET detector according to claim 1 further comprising a second amplifier, an input terminal of the second amplifier being connected with an output terminal of a semiconductor sensor in a predetermined column of the semiconductor sensor array. 9. The PET detector according to claim 1 , wherein positioning of the semiconductor sensors is relating to a spatial resolution of the crystal elements in an image. 10. A detection method comprising: providing a PET detector according to claim 1 ; receiving a γ ray by a crystal element of the PET detector; receiving photons excited by the γ ray in the crystal element by a semiconductor sensor of the plurality of semiconductor sensors; and determining a position where the γ ray excites the photons in the crystal element according to an output of the semiconductor sensor. 11. The detection method according to claim 10 , the determining of the position comprising using a center-of-gravity readout method. 12. A positron emission tomography (PET) detector, the PET detector comprising: a crystal array, the crystal array comprising a plurality of crystal elements; each of the plurality of crystal elements extending along an up-to-down direction, and having an upper side, a lower side, and a surrounding surface between the upper side and the lower side; a light-reflective coating mounted on the surface of each of the plurality of crystal elements, the light-reflective coatings corporately with the crystal array to define a light output surface; 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 sharing at least a portion of the light output surface of the crystal array, wherein the light-reflective coatings mounted on the surface of each of the plurality of crystal elements being set based on an area of the light-reflective coatings, a relative location between the semiconductor sensors, and relative positioning between the semiconductor sensors and the crystal array. 13. The PET detector according to claim 12 , wherein the plurality of crystal elements have a same length. 14. The PET detector according to claim 12 , wherein the light-reflective coatings have different lengths along an up-to-down direction. 15. The PET detector according to claim 12 , wherein the semiconductor sensors are directly coupled with crystal elements.