Patent Number: 
Section: claims

1. A nuclear imaging device including at least one radiation imaging device comprising:a two-dimensional array of radiation detectors which detect emission radiation from radioisotope decay from an object;a slit disposed to project the emission radiation on the two-dimensional array of radiation detectors;a plurality of slats disposed orthogonal to the slit between the slit and the two-dimensional detector array, the slats converging from the detector array towards a focal line disposed further from the detector array than the object. 2. The nuclear imaging device of claim 1, further including:a line radiation source. 3. The nuclear imaging device of claim 1, wherein the slit is defined in a plate and the slats extend from a face of the two-dimensional detector array to the plate. 4. The nuclear imaging device of claim 1, wherein an object plane is defined through the object parallel to the two-dimensional detector array and the projection of the object plane on the two-dimensional detector array is smaller in at least one dimension than the object plane. 5. The nuclear imaging device of claim 1, wherein the slit has a width and a length, the width of the slit being less than the length of the slit, and the two-dimensional detector array includes more than two adjacent detector pixels each having a width, parallel with the width of the slit, which is equal or greater than half the width of the slit. 6. The nuclear imaging device of claim 1, wherein the slats have a pitch, equal to a length of detector pixels in a direction parallel to the slit, the pitch is from about 1 to about 3 mm and the slats have a thickness of from about 0.05 mm to about 0.5 mm. 7. The nuclear imaging device of claim 1, wherein the nuclear imaging device is a Single Photon Emission Computed Tomography (SPECT) imaging device. 8. The nuclear imaging device of claim 1, further including:a subject support;a gantry which rotates around the subject support on an axis of rotation, the axis of rotation and the at least one radiation imaging device being disposed on the gantry with the slit parallel to the rotation axis. 9. The nuclear imaging device of claim 1, further including:a subject support;a gantry which rotates around the subject support on an axis of rotation, the axis of rotation and the at least one radiation imaging device being rotatably mounted to the gantry for rotation about an axis perpendicular to the two-dimensional detector array. 10. The nuclear imaging device of claim 1, further including:a subject support;a gantry which rotates around the subject support on an axis of rotation, the axis of rotation and the at least one radiation imaging device being disposed on the gantry and including a plurality of modules disposed in an array, each module including:a two-dimensional array of radiation detector elements which detect the emission radiation from the portion of the imaging region,a slit which focuses the emission radiation from the portion of the imaging region on the two-dimensional array of detector elements,a plurality of slats disposed perpendicular to the slit between the slit and the two-dimensional array of detector elements, the slats converging from the two-dimensional array of detector elements towards a focal line. 11. A SPECT imaging system comprising:at least one detector head which receives emission radiation from an imaging region, the detector head including an array of modules, each module detecting emission radiation from a portion of the imaging region and including:a two-dimensional array of radiation detector elements which detect the emission radiation from the portion of the imaging region,a slit which focuses the emission radiation from the portion of the imaging region on the two-dimensional array of detector elements,a plurality of slats disposed perpendicular to the slit between the slit and the two-dimensional array of detector elements, the slats converging from the two-dimensional array of detector elements towards a focal line,the modules being disposed adjacent each other in an array and the portions of the image region from which each module detects emission radiation being disposed adjacent each other. 12. The SPECT imaging device of claim 11, further including:a line source mounted to the gantry parallel to the axis of rotation. 13. The SPECT imaging system of claim 11, further including:a gantry which supports the at least one detector head for rotation on an axis of rotation around the imaging region. 14. The SPECT imaging system of claim 13, wherein at least one detector head is mounted on the gantry such that the slit aligns with the axis of rotation. 15. The SPECT imaging system of claim 11, wherein the modules are disposed in a two-dimensional array. 16. A nuclear imaging method comprising:emitting radiation from radioisotopes in an object in an imaging region;with a slit, projecting the emitted radiation onto a two-dimensional detector array;interposing a plurality of slats between the slit and the two-dimensional detector array, the slats being disposed perpendicular to the slit and converging away from the two-dimensional detector array;sampling the two-dimensional detector array to read out data indicative of a two-dimensional projection of the radiation emitted from the object. 17. The method of claim 16, further including:disposing the two-dimensional detector array, the slit, and the slats at each of a plurality of positions around the imaging region; andreconstructing projection data read out from the two-dimensional detector array at the plurality of positions into a three-dimensional image. 18. The method of claim 16, further including:rotating the two-dimensional detector array, the slit, and the slats, as a unit, around an axis perpendicular to the detector array. 19. The method of claim 16, further including:rotating the two-dimensional detector array, the slit, and the slats, as a unit, around the object in an axis of rotation;disposing the slit parallel to the axis of rotation. 20. The method of claim 16, further including:disposing a plurality of slits, two-dimensional detector arrays, and slats in an array with each slit projecting the emitted radiation from a different portion of the object on an associated one of the two-dimensional detector arrays.