Versatile PET detector

The invention claimed is: 1. A detector block for a scalable detector in a medical imaging system, comprising: at least one interchangeable sensor tile, the at least one interchangeable sensor tile being one of a plurality of interchangeable sensor tile types, each interchangeable sensor tile type having universal outer dimensions, wherein each sensor tile type has a different fill factor, and a reduced fill factor correlates to a reduced timing resolution and a reduced manufacturing cost; and a universal mechanical interface configured to couple the interchangeable sensor tile to the scalable detector regardless of the interchangeable sensor tile type, wherein the at least one interchangeable sensor tile comprises an array of sensor dies coupled thereto, each sensor die having a plurality of scintillator crystals coupled thereto. 2. The detector block according to claim 1 , wherein the array of sensor dies comprises one of a 4×4 array, a 4×5 array, a 5×5 array, a 5×6 array, and a 6×6 array. 3. The detector block according to claim 1 , wherein each plurality of scintillator crystals is arranged in one of a 2×2 array and a 3×3 array. 4. The detector block according to claim 1 , wherein the mechanical interface comprises a cooling plate or heat sink coupled to the sensor tile by one or more mechanical fasteners. 5. The detector block according to claim 4 , wherein the one or more mechanical fasteners are at least one of soldered screw nuts and snap fits. 6. The detector block according to claim 1 , wherein the interchangeable sensor tile further comprises a dielectric reflector mask on a sensor side of the interchangeable sensor tile, wherein the dielectric reflector mask covers areas of the sensor tile not populated with scintillation crystals. 7. The detector block according to claim 1 , wherein the different fill factor results in less than all of the sensor tile's being populated with sensor dies. 8. The detector block according to claim 7 , wherein the plurality of scintillator crystals includes a plurality of monolith crystals, each positioned over at least 4 respective sensor dies. 9. The detector block according to claim 7 , wherein in the plurality of scintillator crystals includes a plurality of slab scintillator crystals that each span more than one sensor die. 10. The detector block according to claim 9 , wherein the slab scintillator crystals have a width that is less than a pitch of the sensor dies on the interchangeable sensor tile. 11. The detector block according to claim 1 , wherein plurality of scintillator crystals are one of bismuth germanium oxide (BGO), lutetium-yttrium oxyorthosilicate (LYSO) crystals, lutetium oxyorthosilicate (LSO) an gadolinium oxyorthosilicate (GSO). 12. The detector block according to claim 1 , wherein the medical imaging system is one of a positron emission tomography (PET) imaging system, a PET-computed tomography (CT) imaging system, a PET-magnetic resonance (MR) imaging system, and a single-photon emission computed tomography (SPECT) imaging system. 13. The detector block according to claim 1 , wherein the mechanical interface comprises a thermal interface. 14. An interchangeable sensor tile for use in a detector block in a medical imaging system, comprising: an array of sensor dies coupled to the interchangeable sensor tile, each sensor die having a plurality of scintillator crystals coupled thereto; wherein the interchangeable sensor tile is one of a plurality of interchangeable sensor tile types, each interchangeable sensor tile type having outer dimensions configured to mate with a universal mechanical interface; and wherein each interchangeable sensor tile type has a different fill factor that correlates to reduced timing resolution and to reduced manufacture cost. 15. The interchangeable sensor tile according to claim 14 , wherein the array of sensor dies comprises one of a 4×4 array, a 4×5 array, a 5×5 array, a 5×6 array, and a 6×6 array. 16. The interchangeable sensor tile according to claim 14 , wherein each plurality of scintillator crystals is arranged in one of a 2×2 array and a 3×3 array. 17. The interchangeable sensor tile according to claim 14 , further comprising a dielectric reflector mask on a sensor side of the interchangeable sensor tile, wherein the dielectric reflector mask covers areas of the sensor tile not populated with scintillation crystals. 18. The interchangeable sensor tile according to claim 14 , wherein the interchangeable sensor tile further comprises a reduced fill factor, such that less than all of the interchangeable sensor tile is populated with sensor dies. 19. The interchangeable sensor tile according to claim 18 , wherein the plurality of scintillator crystals includes a plurality of monolith crystals, each positioned over at least 4 respective sensor dies. 20. The interchangeable sensor tile according to claim 18 , wherein in the plurality of scintillator crystals includes a plurality of slab scintillator crystals that each span more than one sensor die. 21. The interchangeable sensor tile according to claim 20 , wherein the slab scintillator crystals have a width that is less than a pitch of the sensor dies on the interchangeable sensor tile. 22. The interchangeable sensor tile according to claim 14 , wherein plurality of scintillator crystals are one of bismuth germanium oxide (BGO), lutetium-yttrium oxyorthosilicate (LYSO) crystals, lutetium oxyorthosilicate (LSO), and gadolinium oxyorthosilicate (GSO). 23. The interchangeable sensor tile according to claim 14 , wherein the medical imaging system is one of a positron emission tomography (PET) imaging system, a PET-computed tomography (CT) imaging system, a PET-magnetic resonance (MR) imaging system, and a single photon emission computed tomography (SPECT) imaging system. 24. A nuclear imaging system comprising: a plurality of detector blocks, each detector block including a universal mechanical interface; an interchangeable sensor tile coupled to each respective mechanical interface, wherein each interchangeable sensor tile comprises: an array of sensor dies coupled to the interchangeable sensor tile, each sensor die having a plurality of scintillator crystals coupled thereto; wherein the interchangeable sensor tile is one of a plurality of interchangeable sensor tile types, each interchangeable sensor tile type having outer dimensions configured to mate with a universal mechanical interface; and wherein each interchangeable sensor tile type has a different fill factor that correlates to declined timing resolution and to reduced manufacture cost.