Fixed field alternating gradient ion accelerator for variable energy extraction

What is claimed is: 1. A system comprising: a charged particle linear accelerator module configured to accelerate a pulse of charged particles as a beam aligned along a first ray; and a pair of fixed field magnet assemblies configured to turn a moving charged particle 360 degrees within a first plane, wherein the fixed field magnet assemblies are disposed on opposite sides of the linear accelerator along the first ray and the pair of fixed field magnet assemblies is arranged with mirrored symmetry relative to a line perpendicular to the first ray and through a reference point in the first plane not on the first ray, each assembly comprising: a pair of magnets for which a strength on the first plane of a magnetic field perpendicular to the first plane varies non-linearly along a radial direction from the reference point; wherein the pair of magnets are disposed in the first plane with mirror symmetry about a line parallel to the first ray and through the reference point, and a superconducting magnet for which a strength on the first plane of a field perpendicular to the first plane varies along a radial direction from the reference point, the superconducting magnet disposed between the pair of magnets on the first plane. 2. A system as recited in claim 1 , wherein a fixed magnetic field of each assembly is configured so that a beam of charged particles having particle energies within first range of energies that enters a first assembly of the pair of fixed field magnet assemblies along the first ray exits the first assembly along a different second ray opposite in direction to the first ray and displaced in a direction perpendicular to the second ray, enters a different second assembly of the pair of fixed field magnet assemblies along the second ray, and exits the second assembly along the first ray. 3. A system as recited in claim 2 , wherein the second ray is coincident for all beams of the same charged particle type within the first range of energies. 4. A system as recited in claim 2 , wherein the beam of charged particles is a beam of protons and the first range of energies for each proton is from about 22 million electron volts (MeV) to about 250 MeV. 5. A system as recited in claim 2 or claim 4 , wherein the beam of charged particles is a beam of Carbon ions and the first range of energies for each Carbon ion is from about 5 million electron volts (MeV) to about 64 MeV. 6. A system as recited in claim 1 , wherein: in at least one fixed field magnet assembly, the superconducting magnet comprises a pair of superconducting magnets; a first superconducting magnet of the pair of superconducting magnets and a first magnet of the pair of magnets for which strength varies non-linearly comprises a first subassembly second superconducting magnet of the pair of superconducting magnets and a second magnet of the pair of magnets for which strength varies non-linearly comprises a second subassembly configured to turn the beam of particles 90 degrees; and the first sub-assembly and the second sub-assembly are arranged with mirrored symmetry to each other relative to a line parallel to the first ray and through the reference point. 7. A system as recited in claim 1 , wherein a circumference of the system in the horizontal plane is less than about 15 meters. 8. A system as recited in claim 1 , further comprising an injection septum disposed along the first ray and an extraction septum disposed along the second ray. 9. A system as recited in claim 1 , further comprising a quadrupole magnet disposed along the first ray or the second ray to reduce resonant displacements from the first ray or the second ray. 10. A system as recited in claim 1 , further comprising an electron stripping device disposed along the first ray or the second ray to increase charge of the charged particle whereby a maximum energy of the first range of energies increases. 11. A system as recited in claim 1 , further comprising a stripping device disposed along the first ray or the second ray to dissociate particles in a molecular hydrogen beam into protons.