Patent Number: 053032829
Section: claims

1. A method of forming a collimator for use with a radiation point source adapted to emit radiation having a predetermined wavelength distribution, said collimator comprising: forming a mask having a pattern of openings therein corresponding to a pattern of detector elements in a radiation detector array to which said collimator is to be mated;  exposing a photosensitive substrate to light beams passing through said mask and along paths corresponding to direct paths extending between said radiation point source and said collimator such that unmasked portions of said substrate are exposed at respective selected orientation angles;  etching said photosensitive substrate to form channels therein such that said channels have respective longitudinal axes aligned with respective ones of said selected orientation angles, said selected orientation angles being determined by the angle at which the light struck said photosensitive substrate; and  applying a radiation absorbent material to said at least one photosensitive substrate, said radiation absorbent material being selected to absorb radiation of the wavelength distribution emitted by said radiation point source.  forming a plurality of masks, each of said masks having a respective pattern of openings therein corresponding to a pattern of detector elements in a radiation detector array to which said collimator is to be mated;  exposing a plurality of photosensitive substrates to light beams emanating from a light point source, each of said photosensitive substrates being paired with a respective one of said masks through which said light beams pass along paths corresponding to direct paths extending between said radiation point source and said collimator such that unmasked portions of each respective one of said substrates are exposed at respective selected orientation angles;  etching each of said photosensitive substrates to form channels therein such that said channels have respective longitudinal axes aligned with respective ones of said selected orientation angles, said selected orientation angles being determined by the angle at which the light struck said photosensitive substrate;  applying a radiation absorbent material to each said etched substrates, said radiation absorbent material being selected to absorb radiation of the wavelength distribution emitted by said radiation point source; and  joining said substrates together to form a collimator body having said respective channels in said collimator substrates aligned to form channels through said collimator body. 2. The method of claim 1 further comprising the steps of forming a plurality of substrates and joining said substrates together to align respective channels in said collimator substrates. 3. The method of claim 1 wherein the step of exposing said substrate further comprises the step of positioning said substrate with respect to a light point source so that light emitted from said light point source strikes said substrate at the same angle that radiation emitted from said radiation point source would strike said collimator in the assembled device. 4. The method of claim 3 wherein the step of positioning said substrate comprises situating said light point source at a selected distance from said substrate corresponding to the distance of said collimator from said radiation point source in said assembled device and orienting the plane of the surface of said substrate to be at a selected planar angle with respect to said light point source corresponding to the angle of said collimator with respect to said radiation point source in said assembled device. 5. The method of claim 3 wherein said light point source comprises an ultraviolet light source. 6. The method of claim 3 wherein said light point source comprises a laser. 7. The method of claim 1 wherein the step of etching said photosensitive substrate further comprises removing remaining portions of said mask from said substrate. 8. The method of claim 1 wherein said radiation absorbent material comprises tungsten. 9. A method of forming a collimator for use with a radiation point source adapted to emit radiation having a predetermined wavelength distribution, said collimator comprising: 10. The method of claim 9 wherein the step of exposing each of said substrate further comprises the step of positioning each substrate with respect to said light point source so that light emitted from said light point source emanates along paths corresponding to the paths between said radiation point source and said radiation detector elements in the assembled device. 11. The method of claim 10 wherein the step of positioning each of said substrates comprises situating said light point source at a selected distance from each respective one of said substrates corresponding to the respective distances of said substrates in said collimator body from said radiation point source in said assembled device and orienting the plane of the surface of each of said substrates to be at a selected planar angle with respect to said light point source corresponding to the angle of said collimator body with respect to said radiation point source in said assembled device. 12. The method of claim 9 wherein said light point source comprises an ultraviolet light source. 13. The method of claim 9 wherein said light point source comprises a laser. 14. The method of claim 9 wherein the step of etching said photosensitive substrates further comprises removing remaining portions of said respective mask from respective ones of said substrates. 15. The method of claim 9 wherein said radiation absorbent material comprises tungsten. 16. The method of claim 9 wherein the step of joining said collimator plates together further comprises aligning said channels so that the sidewalls of respective ones of said channels that adjoin one another are substantially contiguous.