Patent Number: 
Section: claims

1. An apparatus for radiation therapy, the apparatus comprising a plurality of rods comprising:a first group of opposing rods that are individually moveable parallel to a first axis, wherein the rods in the first group are disposed in a first plurality of layers comprising multiple rods in each layer of the first plurality of layers, and wherein each rod of the multiple rods in each layer of the first plurality of layers is moveable independently of each other; anda second group of opposing rods coupled to the first group and that are individually moveable parallel to a second axis, wherein the first and second axes are not parallel to each other, wherein the rods in the second group are disposed in a second plurality of layers comprising multiple rods in each layer of the second plurality of layers, and wherein each rod of the multiple rods in each layer of the second plurality of layers is moveable independently of each other;wherein the rods in the first group and the rods in the second group are configured to overlap in an incident radiation beam and shape the radiation beam. 2. The apparatus of claim 1, wherein the rods in the first group comprise:a first plurality of first rods; anda second plurality of second rods with ends facing ends of the first rods; andwherein the rods in the second group comprise:a third plurality of third rods; anda fourth plurality of fourth rods with ends facing ends of the third rods. 3. The apparatus of claim 1, wherein each of the rods in the plurality of rods has a cross-sectional shape selected from the group consisting of:square; rectangular; and hexagonal. 4. The apparatus of claim 1, wherein facing ends of the opposing rods in the first group are complementary in shape, and wherein facing ends of the opposing rods in the second group are complementary in shape. 5. The apparatus of claim 1, wherein the plurality of rods comprises rods that have a portion that is transparent to the radiation beam. 6. The apparatus of claim 1, wherein the plurality of rods comprises rods that completely block the radiation beam. 7. The apparatus of claim 1, wherein the plurality of rods comprises rods that attenuate the radiation beam. 8. The apparatus of claim 1, wherein the first group of rods is collectively moveable about a central point of the first group, and wherein the second group of rods is collectively moveable about a central point of the second group, to change a relative orientation of the first and second axes. 9. The apparatus of claim 1, wherein each rod of the plurality of rods is coupled to a respective drive, wherein each said respective drive comprises a first encoder operable for indicating a position of a respective rod of the plurality of rods, and wherein each said respective rod is adjacent a respective second encoder also operable for indicating the position of said respective rod. 10. A system, comprising:a control system;a beam emitter coupled to the control system and operable for emitting a beam of radiation along a beam axis; anda beam modifier coupled to the control system and configured to intersect the beam outside the beam emitter, wherein the beam modifier comprises a plurality of rods configured to intersect the beam from more than two directions, the plurality of rods comprising:a first group of rods moveable in directions parallel to a first axis that is orthogonal to the beam axis, and disposed in a first plurality of layers comprising multiple rods in each layer of the first plurality of layers, and wherein each rod of the multiple rods in each layer of the first plurality of layers is moveable independently of each other; anda second group of rods that are moveable in directions parallel to a second axis that is orthogonal to the beam axis, disposed in a second plurality of layers comprising multiple rods in each layer of the second plurality of layers, and wherein each rod of the multiple rods in each layer of the second plurality of layers is moveable independently of each other; and configured to overlap rods in the first group in the beam, wherein the first and second axes are not parallel to each other. 11. The system of claim 10, wherein the rods in the first group comprise:a first plurality of first rods disposed in a plurality of first overlapping layers, each of the first rods individually moveable in a first direction parallel to the first axis; anda second plurality of second rods disposed in a plurality of second overlapping layers, each of the second rods individually moveable in a second direction parallel to the first axis toward the first rods; andwherein the rods in the second group comprise:a third plurality of third rods disposed in a plurality of third overlapping layers, each of the third rods individually moveable in a third direction parallel to the second axis; anda fourth plurality of fourth rods disposed in a plurality of fourth overlapping layers, each of the fourth rods individually moveable in a fourth direction parallel to the second axis toward the third rods. 12. The system of claim 11, wherein ends of the first rods are complementary in shape to facing ends of the second rods, and wherein ends of the third rods are complementary in shape to facing ends of the fourth rods. 13. The system of claim 10, wherein the first group of rods is collectively moveable about a central point of the first group, and wherein the second group of rods is collectively moveable about a central point of the second group, to change a relative orientation of the first and second axes. 14. The system of claim 10, wherein each of the rods in the plurality of rods has a cross-sectional shape selected from the group consisting of:square; rectangular; and hexagonal. 15. The system of claim 10, wherein the plurality of rods comprises rods that have a portion that is transparent to the radiation beam. 16. The system of claim 10, wherein the plurality of rods comprises rods that completely block the radiation beam. 17. The system of claim 10, wherein the plurality of rods comprises rods that attenuate the radiation beam. 18. The system of claim 10, wherein each of the rods in the plurality of rods is coupled to a respective drive, wherein each said respective drive comprises a first encoder operable for indicating a position of a respective rod of the plurality of rods, and wherein each said respective rod is adjacent a respective second encoder also operable for indicating the position of said respective rod. 19. A method for radiation therapy, comprising:configuring a beam modifier to intersect an incident radiation beam, wherein said configuring comprises selectively moving rods of a plurality of rods to positions to intersect the beam, the plurality of rods comprising first rods that are disposed in a first plurality of layers comprising multiple rods in each layer of the first plurality of layers, and wherein each rod of the multiple rods in each layer of the first plurality of layers is moveable independently of each other and that are moveable in directions that are parallel to a first axis that is orthogonal to the radiation beam, the plurality of rods also comprising second rods that are disposed in a second plurality of layers comprising multiple rods in each layer of the second plurality of layers, and wherein each rod of the multiple rods in each layer of the second plurality of layers is moveable independently of each other and that are moveable in directions that are parallel to a second axis that is orthogonal to the radiation beam, wherein the first rods and the second rods are configured to overlap in the radiation beam, and wherein the first and second axes are not parallel to each other; andemitting the radiation beam from a beam emitter into the beam modifier. 20. The method of claim 19, wherein the first rods comprise:a first plurality of the first rods disposed in the plurality of first layers; anda second plurality of the first rods disposed in the plurality of second layers and with ends facing ends of the first plurality of first rods; andwherein the second rods comprise:a first plurality of the second rods disposed in a plurality of third layers; anda second plurality of the second rods disposed in a plurality of fourth layers and with ends facing ends of the first plurality of second rods.