A particle therapy gantry for delivering a particle beam to a patient includes a beam tube having a curvature defining a particle beam path and a plurality of fixed field magnets sequentially arranged along the beam tube for guiding the particle beam along the particle path. In a method for deliveri
A particle therapy gantry for delivering a particle beam to a patient includes a beam tube having a curvature defining a particle beam path and a plurality of fixed field magnets sequentially arranged along the beam tube for guiding the particle beam along the particle path. In a method for delivering a particle beam to a patient through a gantry, a particle beam is guided by a plurality of fixed field magnets sequentially arranged along a beam tube of the gantry and the beam is alternately focused and defocused with alternately arranged focusing and defocusing fixed field magnets.
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1. A particle therapy gantry for delivering a particle beam to a patient comprising: a beam tube having a curvature defining a particle beam path; anda plurality of fixed field permanent magnets sequentially arranged along said beam tube for guiding the particle beam along said particle path, wherei
1. A particle therapy gantry for delivering a particle beam to a patient comprising: a beam tube having a curvature defining a particle beam path; anda plurality of fixed field permanent magnets sequentially arranged along said beam tube for guiding the particle beam along said particle path, wherein said fixed field permanent magnets are arranged in a series of unit cells, each cell comprising two bending dipole magnets, a focusing quadrupole magnet and two defocusing quadrupole magnets, said bending dipole magnets performing the function of bending the particle beam along said particle beam path, said focusing quadrupole magnet performing the function of focusing the particle beam along said particle beam path and said defocusing quadrupole magnets performing the function of defocusing the particle beam along said particle beam path. 2. A gantry as defined in claim 1, wherein said bending dipole magnets are separated by said defocusing quadrupole magnet and flanked by said focusing quadrupole magnet. 3. A gantry as defined in claim 2, wherein said unit cell is symmetric with respect to the longitudinal center of said defocusing quadrupole magnet. 4. A gantry as defined in claim 1, wherein said defocusing quadrupole magnet has a linear horizontal defocusing gradient, whereby particles of the beam path tend to disperse along a plane defined by a radius of curvature of said beam tube, but tend to concentrate with respect to a plane perpendicular to said radius of curvature, and wherein said two focusing quadrupole magnets have a linear horizontal focusing gradient, whereby particles tend to concentrate along said plane defined by said radius of curvature of said beam tube, but tend to disperse along said plane perpendicular to said plane defined by said radius of curvature of said beam tube. 5. A gantry as defined in claim 1, wherein said fixed field permanent magnets each comprise a plurality of ferromagnetic segments radially arranged around a magnet center, each segment having a fixed magnetic field oriented in a predetermined direction. 6. A gantry as defined in claim 5, wherein each of said bending dipole magnet comprises eight of said segments arranged to produce a combined dipole magnetic field across said magnet center, and wherein each of said quadrupole magnets comprise sixteen of said segments arranged to produce a quadrupole magnetic field across said magnet center. 7. A gantry as defined in claim 5, wherein said beam tube has a radial center line, and wherein each of said defocusing quadrupole magnets is rotated about said beam tube center line to produce a quadrupole magnetic field flowing from a plane perpendicular to a plane defined by a radius of curvature of said beam tube to said plane defined by said radius of curvature of said beam tube, and wherein each of said focusing quadrupole magnets is rotated about said beam tube center ninety degrees with respect to said defocusing quadrupole magnets to produce a quadrupole magnetic field flowing from said plane defined by said radius of curvature of said beam tube to said plane perpendicular to said plane defined by said radius of curvature of said beam tube. 8. A gantry as defined in claim 1, wherein said beam tube includes a particle beam entry point, a transition point, a particle beam exit point, a first curved particle beam path arc length extending between said entry point and said transition point and a second curved particle beam path arc length extending between said transition point and said exit point, said first arc length bending about ninety degrees and said second arc length bending about one hundred eighty degrees in a direction opposite said first arc length. 9. A gantry as defined in claim 8, wherein said fixed field magnets comprise two half-cells disposed in juxtaposed orientation at said beam tube transition point, a half-cell disposed at said beam tube entry point and a half-cell disposed at said beam tube exit point, each of said half-cells comprising a bending dipole magnet, a defocusing quadrupole magnet and a focusing quadrupole magnet. 10. A particle beam therapy system comprising: a source of particles;an accelerator for accelerating the particles as a particle beam;an injector for transporting particles from said source to said accelerator;a patient treatment station including a rotatable gantry for delivering a particle beam to a patient, said gantry including a beam tube having a curvature defining a particle beam path and a plurality of fixed field permanent magnets sequentially arranged along said beam tube for guiding the particle beam along said particle path; anda beam transport system for transporting the accelerated beam from said accelerator to said patient treatment station,wherein said fixed field permanent magnets of said gantry are arranged in a series of unit cells, each cell comprising two bending dipole magnets, a focusing quadrupole magnet and two defocusing quadrupole magnets, said bending dipole magnets performing the function of bending the particle beam along said particle beam path, said focusing quadrupole magnet performing the function of focusing the particle beam along said particle beam path and said defocusing quadrupole magnets performing the function of defocusing the particle beam along said particle beam bath. 11. A particle beam therapy system as defined in claim 10, wherein said bending dipole magnets are separated by said defocusing quadrupole magnet and flanked by said focusing quadrupole magnet. 12. A particle beam therapy system as defined in claim 10, wherein said defocusing quadrupole magnet has a linear horizontal defocusing gradient, whereby particles of the beam path tend to disperse along a plane defined by a radius of curvature of said beam tube, but tend to concentrate with respect to a plane perpendicular to said radius of curvature, and wherein said two focusing quadrupole magnets have a linear horizontal focusing gradient, whereby particles tend to concentrate along said plane defined by said radius of curvature of said beam tube, but tend to disperse along said plane perpendicular to said plane defined by said radius of curvature of said beam tube. 13. A particle beam therapy system as defined in claim 10, wherein said fixed field permanent magnets each comprise a plurality of ferromagnetic segments radially arranged around a magnet center, each segment having a fixed magnetic field oriented in a predetermined direction. 14. A particle beam therapy system as defined in claim 13, wherein each of said bending dipole magnet comprises eight of said segments arranged to produce a combined dipole magnetic field across said magnet center, and wherein each of said quadrupole magnets comprise sixteen of said segments arranged to produce a quadrupole magnetic field across said magnet center. 15. A particle beam therapy system as defined in claim 13, wherein said beam tube has a radial center line, and wherein each of said defocusing quadrupole magnets is rotated about said beam tube center line to produce a quadrupole magnetic field flowing from a plane perpendicular to a plane defined by a radius of curvature of said beam tube to said plane defined by said radius of curvature of said beam tube, and wherein each of said focusing quadrupole magnets is rotated about said beam tube center ninety degrees with respect to said defocusing quadrupole magnets to produce a quadrupole magnetic field flowing from said plane defined by said radius of curvature of said beam tube to said plane perpendicular to said plane defined by said radius of curvature of said beam tube. 16. A particle therapy gantry for delivering a particle beam to a patient comprising: a beam tube having a curvature defining a particle beam path; anda plurality of fixed field permanent magnets sequentially arranged along said beam tube for guiding the particle beam along said particle path, wherein each of said fixed field permanent magnets is a separate function magnet performing only one of a bending function, a focusing function and a defocusing function along said particle path. 17. A method for delivering a particle beam to a patient through a gantry comprising the steps of: bending the particle beam with a plurality of fixed field permanent magnets sequentially arranged along a beam tube of the gantry, the particle beam traveling in said beam tube;alternately focusing and defocusing the particle beam traveling in said beam tube with alternately arranged focusing and defocusing fixed field permanent magnets; and delivering said particle beam from said gantry to a patient, wherein said beam is strongly focused in both the horizontal and vertical planes,wherein said fixed field permanent magnets are arranged in a series of unit cells, each cell comprising two bending dipole magnets, a focusing quadrupole magnet and two defocusing quadrupole magnets, said bending dipole magnets performing the function of bending the particle beam along said particle beam path, said focusing quadrupole magnet performing the function of focusing the particle beam along said particle beam path and said defocusing quadrupole magnets performing the function of defocusing the particle beam along said particle beam path.
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