Patent Number: 
Section: claims

1. A method for constructing a post-patient collimator for a computed tomographic (CT) imaging system, said method comprising the steps of: edge welding collimator plates to a top rail using at least one directed energy beam welder; and  edge welding the collimator plates to a bottom rail, using the at least one directed energy beam welder. 2. A method in accordance with  claim 1  further comprising the step of positioning the collimator plates and the top rail and bottom rail in a fixture to hold the collimator plates and the top and bottom rails in position relative to one another during welding. claim 1 3. A method in accordance with  claim 1  wherein the top rail and the bottom rail each have a front and a rear, the collimator plates each have a top front corner, a top rear corner, a bottom front corner, and a bottom rear corner, and wherein each edge welding step comprises edge welding the top front corner and the bottom front corner of a collimator plate towards the front of the top rail and towards the front of the bottom rail, respectively, and the top rear corner and the bottom rear corner of the collimator plate towards the rear of the top rail and towards the rear of the bottom rail, respectively, using a pair of directed energy beam welders. claim 1 4. A method in accordance with  claim 1  wherein the welded collimator plates are tungsten plates. claim 1 5. A method in accordance with  claim 1  wherein further comprising the step of stringing attenuating wires through notches in the collimator plates. claim 1 6. A method in accordance with  claim 5  further comprising the step of welding the attenuating wires to the collimator plates using a directed energy beam welder. claim 5 7. A method in accordance with  claim 6  wherein the attenuating wires are tungsten wires. claim 6 8. A method in accordance with  claim 1  wherein the collimator plates are unnotched, and further comprising the steps of stringing attenuating wires across the collimator plates, positioning the wires against the collimator plates using a fixture, and welding the attenuating wires to the collimator plates using a directed energy beam welder. claim 1 9. A method in accordance with  claim 1  wherein at least one of the edge welding steps comprises the steps of inserting a wire into chamfered gaps between the collimator plates and at least one rail selected from the top rail and the bottom rail, welding the wire to the at least one selected rail at least in the chamfered gaps, and welding the wire to the collimator plates. claim 1 10. A method in accordance with  claim 9  wherein the wire is a steel wire. claim 9 11. A method in accordance with  claim 1  further comprising the step of inserting the collimator plates into a comb affixed to at least one of the rails. claim 1 12. A method in accordance with  claim 1  wherein the at least one directed energy beam welder comprises a laser welder. claim 1 13. A method in accordance with  claim 1  wherein the at least one directed energy beam welder comprises an electron beam welder. claim 1 14. A method for constructing a post-patient collimator for a computed tomographic (CT) imaging system, said method comprising the steps of: preparing a plurality of sections of the post-patient collimator, each section being prepared by steps of edge welding each of a plurality of collimator plates to a first curved metal segment using at least one directed energy beam welder and by edge welding each of the plurality of collimator plates to a second curved metal segment using at least one directed energy beam welder, the first curved metal segment thereby becoming a top of the prepared segment and the second curved metal segment thereby becoming a bottom of the prepared segment;  radially arraying the plurality of prepared sections between a top rail and a bottom rail; and  affixing the top of each of the plurality of prepared sections to the top rail and the bottom of each of the plurality of prepared segments to the bottom rail. 15. A method in accordance with  claim 14  further comprising the step of stringing attenuating wires through notches in the collimator plates. claim 14 16. A method in accordance with  claim 15  further comprising the step of welding the attenuating wires to the collimator plates using a directed energy beam welder. claim 15 17. A method in accordance with  claim 15  wherein the attenuating wires are tungsten wires. claim 15 18. A method in accordance with  claim 14  wherein the collimator plates are unnotched, and further comprising the steps of stringing attenuating wires across the collimator plates, positioning the wires against the collimator plates using a fixture, and welding the attenuating wires to the collimator plates using a directed energy beam welder. claim 14 19. A method in accordance with  claim 14  wherein at least one of the edge welding steps comprises the steps of inserting a wire into chamfered gaps between the collimator plates and at least one curved metal segment selected from the first curved metal segment and the second curved metal segment, welding the wire to the at least one selected curved metal segment in the charnfered gaps, and welding the wire to the collimator plates. claim 14 20. A post-patient collimator for a radiation detector of a computed tomographic (CT) imaging system, said collimator comprising a top rail, a bottom rail, and a set of collimator plates, each said collimator plate edge welded at one end to said top rail and at an opposite end to said bottom rail. 21. A post-patient collimator in accordance with  claim 20  wherein said top rail and said bottom rail each have a front and a rear, and each said collimator plate has a top front corner, a top rear corner, a bottom front corner, and a bottom rear corner, each said top front corner and said bottom front corner edge welded towards said front of said top rail and said front of said bottom rail, respectively, and each said top rear corner and said bottom rear corner edge welded towards said rear of said top rail and said rear of said bottom rail, respectively. claim 20 22. A post-patient collimator in accordance with  claim 20  wherein said edge welded collimator plates are tungsten plates. claim 20 23. A post-patient collimator in accordance with  claim 20  wherein said collimator plates are notched, and further comprising attenuating wires strung through said notches in said collimator plates. claim 20 24. A post-patient collimator in accordance with  claim 23  wherein said attenuating wires are welded to said collimator plates. claim 23 25. A post-patient collimator in accordance with  claim 24  wherein said attenuating wires are tungsten wires. claim 24 26. A post-patient collimator in accordance with  claim 20  wherein said collimator plates are unnotched, and said post-patient collimator further comprises attenuating wires strung across and welded to said collimator plates. claim 20 27. A post-patient collimator in accordance with  claim 20  having chamfered gaps between said collimator plates and at least one of said top rail and said bottom rail, and further comprising a wire within said chamfered gap and welded to said at least one rail and each of said collimator plates. claim 20 28. A post-patient collimator for a computed tomographic (CT) imaging system, said collimator comprising: a plurality of sections of the post-patient collimator, each said section comprising a top metal segment, a bottom metal segment, and a plurality of collimator plates, each said collimator plate edge welded to said top metal segment and to said bottom metal segment,  a top rail and a bottom rail, said plurality of sections radially arrayed between said top rail and said lower rail, and each said section affixed to both said top rail and to said bottom rail. 29. A post-patient collimator in accordance with  claim 28  wherein said collimator plates are notched, and further comprising attenuating wires strung through said notches. claim 28 30. A post-patient collimator in accordance with  claim 29  wherein said attenuating wires are welded to said collimator plates. claim 29 31. A post-patient collimator in accordance with  claim 30  wherein said attenuating wires are tungsten wires. claim 30 32. A post-patient collimator in accordance with  claim 28  wherein said collimator plates are unnotched, and further comprising attenuating wires strung across and welded to said collimator plates. claim 28