Patent Number: 052934179
Section: claims

1. A method of fabricating a collimator for use in a radiation imager device having a point radiation source, comprising: selectively removing material from each of a plurality of collimator plates to form passages therein corresponding to a respective selected pattern, each of said selected patterns corresponding to the arrangement of an array of radiation detector elements adjoining said collimator in the assembled imager device; and  stacking said collimator plates together to form a collimator body, said collimator plates being positioned so that passages in each of said collimator plates are disposed in spaced relation to respective passages in adjoining collimator plates to form channels through said collimator body, the longitudinal axis of each of said channels having a respective selected orientation angle;  each of said collimator plates comprising substantially only a radiation absorbent material selected to absorb radiation of the wavelength distribution emitted by said radiation point source and the number of collimator plates being selected to provide a predetermined overall thickness of radiation absorptive material so as to absorb substantially all radiation striking the collimator from said radiation point source;  the step of selectively removing material further comprising the steps of forming a respective mask corresponding to each of said plates, said mask each having a respective pattern of openings therein corresponding to a pattern of radiation detector elements in the radiation detector array to which said collimator is to be mated, and then etching each said collimator plates through its respective mask to form said passages therein. 2. The method of claim 1 wherein said radiation absorbent material comprises one of the group consisting of tungsten, gold, and lead. 3. The method of claim 1 wherein the step of selectively removing material from said collimator plates comprises wet etching tungsten sheets through a mask having said selected pattern. 4. The method of claim 3 wherein said step of etching further comprises removing portions of said mask remaining on said collimator plate after etching said passages. 5. The method of claim 1 wherein said step of stacking said collimator plates further comprises aligning said plates so that the sidewalls of said passages are positioned with respect to adjoining sidewalls of respective passages in adjoining ones of said collimator plates to form channels in said collimator body having longitudinal axes aligned with said respective selected orientation angles.