Patent Number: 
Section: claims

1. A method for fabricating a collimator, said method comprising:mixing an x-ray absorbent material with at least one of a temporary binder and a temporary gel;extruding the mixed x-ray absorbent material through a die to form a unitary collimator structure that is at least one of substantially honeycomb in shape and substantially rectangular in shape;slicing the unitary structure to form a collimator having collimating openings; andpositioning the collimator proximate a scintillator array such that a random distribution of collimating openings are positioned proximate the scintillator array. 2. A method in accordance with claim 1 further comprising:sintering the unitary structure at an appropriate temperature. 3. A method in accordance with claim 1 wherein said mixing an x-ray absorbent material includes mixing an x-ray absorbent material having an atomic number greater than 72. 4. A method in accordance with claim 1 wherein said mixing an x-ray absorbent material includes mixing an x-ray absorbent material including at least one of tantalum, lead, and tungsten. 5. A method in accordance with claim 1 wherein the random distribution of collimating openings includes at least two collimating openings positioned proximate a single scintillator element. 6. A method in accordance with claim 1 wherein the binder comprises at least one of polyethylene glycol, methylcellulose, ethyihydroxy ethylcellulose, hydroxybutyl methylcellulose, hydroxymethylcellulose, hydroxypropyl methylcellulose, hydroxyethyl methylcellulose, hydroxybutylcellulose, hydroxyethyl-cellulose, hydroxypropylcellulose, and sodium carboxy methylcellulose. 7. A collimator/scintillator array assembly for an imaging system, said collimator/scintillator array assembly comprising a unitary collimator, said collimator comprising an extruded x-ray absorbent material, a binder and a plurality of openings that are at least one of substantially honeycomb in shape and substantially rectangular in shape; anda scintillator array comprising a plurality of scintillators each having a scintillator area and an x-ray incidence side, wherein said collimator positioned proximate said x-ray incidence side and an area of a single said scintillator of said plurality of scintillators is greater than a single said collimator opening and at least two partial said openings are positioned proximate a single scintillator. 8. A collimator/scintillator array assembly in accordance with claim 7 wherein said extruded x-ray absorbent material comprises a sintered x-ray absorbent material. 9. A collimator/scintillator array assembly in accordance with claim 7 wherein said extruded x-ray absorbent material comprises at least one of tantalum, lead, and tungsten. 10. A collimator in accordance with claim 7 wherein said binder comprises at least one of polyethylene glycol, methylcellulose, ethylhydroxy ethylcellulose, hydroxybutyl methylcellulose, hydroxymethylcellulose, hydroxypropyl methylcellulose, hydroxyethyl methylcellulose, hydroxybutylcellulose, hydroxyethyl-cellulose, hydroxypropylcellulose, and sodium carboxy methylcellulose. 11. A computed tomographic (CT) imaging system, said CT system comprising:at least one radiation source; anda collimator comprising an extruded x-ray absorbent material wherein said collimator is unitary and comprises a binder and a plurality of openings that are at least one of substantially honeycomb in shape and substantially rectangular in shape; anda scintillator array comprising a plurality of scintillators each having a scintillator area and an x-ray incidence side, wherein said collimator positioned proximate said x-ray incidence side, an area of a single said scintillator of said plurality of scintillators is greater than a single said collimator opening and at least two partial said openings are positioned proximate a single scintillator. 12. A CT imaging system in accordance with claim 11 wherein said extruded x-ray absorbent material comprises a sintered x-ray absorbent material. 13. A CT imaging system in accordance with claim 11 wherein said extruded x-ray absorbent material comprises an x-ray absorbent material comprising an atomic number greater than 72. 14. A CT imaging system in accordance with claim 11 wherein said extruded x-ray absorbent material comprises at least one of tantalum, lead, and tungsten. 15. A CT imaging system in accordance with claim 11 wherein said collimator comprises a random distribution of collimating openings positioned proximate a scintillator array. 16. A CT imaging system in accordance with claim 11 wherein said binder comprises at least one of polyethylene glycol, methylcellulose, ethyihydroxy ethylcellulose, hydroxybutyl methylcellulose, hydroxymethylcellulose, hydroxypropyl methylcellulose, hydroxyethyl methylcellulose, hydroxybutylcellulose, hydroxyethylcellulose, hydroxypropylcellulose, and sodium carboxy methylcellulose. 17. A computed tomographic (CT) imaging system, said CT system comprising:a gantry;a detector array on the gantry, said detector array including a scintillator array comprising a plurality of scintillators each having a scintillator area and an x-ray incidence side;at least one x-ray source on the gantry configured to project a beam of x-radiation towards said detector array through an object to be imaged; andan extruded unitary collimator positioned proximate said x-ray incidence side, said collimator comprising an x-ray absorbent material having an atomic number greater than 72, said collimator further comprising a random distribution of collimator openings configured such that at least two partial openings are positioned proximate a single scintillator, and wherein an area of a single said scintillator of said plurality of scintillators is greater than a single said collimator opening. 18. A method for fabricating a collimator, said method comprising:mixing an x-ray absorbent material with at least one of a temporary binder and a temporary gel;extruding the mixed x-ray absorbent material through a die to form a unitary collimator structure that includes a plurality of collimating openings wherein the collimating openings are at least one of substantially honeycomb in shape and substantially rectangular in shape; andpositioning the collimator proximate a scintillator array having single scintillators that have a larger area than single said collimating openings such that a random distribution of collimating openings are positioned proximate the scintillator array and at least two partial collimating openings are positioned proximate a single scintillator. 19. A method for fabricating a collimator, said method comprising:mixing an x-ray absorbent material including an atomic number greater than 72 with at least one temporary binder and at least one temporary gel;extruding the mixed x-ray absorbent material through a die to form a unitary structure that comprises a plurality of collimating openings that are at least one of substantially honeycomb in shape and substantially rectangular in shape;sintering the unitary structure at an appropriate temperature;slicing the unitary structure to form a collimator; andpositioning the collimator proximate a scintillator array having single scintillators larger than single said collimating openings such that a random distribution of collimating openings are positioned proximate the scintillator array and at least two partial collimating openings are positioned proximate a single scintillator.