System and method for gantry-less particle therapy

We claim: 1. A particle therapy system for treating a patient, comprising: a charged particle generating system comprising: an ion source; an injector that injects an ion beam from the ion source into a beam track; a beam transport system defining the beam track and coupled to the charged particle generating system, the beam transport system comprising: a beam tube evacuated to a vacuum and defining the beam track, the beam tube comprising an energizing segment extending in a first plane and circumscribing a volume to which the ion beam is to be delivered, an extracting segment extending in a second plane that is away from the first plane and terminating at a terminal end, and a transition segment that connects the energizing segment to the extracting segment, wherein the ion beam is received in the energizing segment from the injector; a plurality of magnets that adjust a trajectory of the ion beam in the beam tube as the ion beam passes through each of the plurality of magnets; an acceleration cavity that accelerates the ion beam as the ion beam passes through the acceleration cavity; and a beam delivery device coupled to the terminal end of the extracting segment and positioned inward from an outer perimeter of the energizing segment, the beam delivery device configured to direct the ion beam from the extracting segment toward a treatment area in the volume circumscribed by the energizing segment. 2. The system of claim 1 , wherein the first plane and the second plane are spaced apart from one another, and the transition segment is angled away from the first plane toward the second plane. 3. The system of claim 2 , wherein the transition segment extends tangentially away from the energizing segment toward the extracting segment. 4. The system of claim 1 , wherein the energizing segment is defined by a substantially circular outer perimeter. 5. The system of claim 4 , wherein the extracting segment has an arcuate shape that spirals radially inwardly toward the volume circumscribed by the energizing segment. 6. The system of claim 1 , wherein legs extend away from the extracting segment toward the first plane to support the extracting segment. 7. The system of claim 1 , wherein the beam delivery device includes a nozzle comprising scanning electromagnets that provide pencil beam scanning of the ion beam. 8. The system of claim 1 , wherein the plurality of magnets comprises a plurality of bending magnets and a plurality of focusing magnets. 9. The system of claim 1 , wherein the energizing segment comprises one of a synchrotron or a cyclotron. 10. The system of claim 1 , further comprising a patient positioner situated inward from the outer perimeter. 11. A particle therapy system for treating a patient, comprising: an ion source; an injector that extracts an ion beam from the ion source; a beam tube coupled to the injector to receive the ion beam from the injector, the beam tube defining a beam track that includes an annular portion formed in a first plane and circumscribing a volume, an arcuate portion formed in a second plane, and a transition portion extending from the first plane to the second plane; and a beam delivery device coupled to the arcuate portion and extending radially inward from the annular portion of the beam track into a patient treatment area contained in the volume circumscribed by the annular portion. 12. The system of claim 11 , wherein the arcuate portion spirals inwardly away from the transition portion. 13. The system of claim 11 , wherein the annular portion of the beam track comprises a synchrotron. 14. The system of claim 11 , wherein the transition portion extends tangentially away from the annular portion. 15. The system of claim 11 , wherein the beam delivery device includes a nozzle comprising scanning electromagnets that provide pencil beam scanning of the ion beam. 16. The system of claim 11 , wherein a plurality of magnets are coupled to the beam tube, the plurality of magnets having varying strengths and polarities for adjusting a trajectory of the ion beam as it passes through the beam tube. 17. A particle therapy system for treating a patient, comprising: a charged particle generating system comprising: an ion source; an injector that injects an ion beam from the ion source into a beam track; a beam transport system defining the beam track and coupled to the charged particle generating system, the beam transport system comprising: a beam tube evacuated to a vacuum and comprising an energizing segment extending in a first plane and circumscribing a volume to which the ion beam is to be delivered, an extracting segment extending in a second plane that is away from the first plane and terminating at a terminal end, and a transition segment that connects the energizing segment to the extracting segment, wherein the ion beam is received in the energizing segment from the injector; a plurality of magnets that adjust a trajectory of the ion beam in the beam tube as the ion beam passes through each of the plurality of magnets; an acceleration cavity that accelerates the ion beam as the ion beam passes through the acceleration cavity; a nozzle coupled to the terminal end of the extracting segment and positioned inward from an outer perimeter of the energizing segment, the nozzle comprising a scanning electromagnet that operates to scan the ion beam over a treatment area in the volume circumscribed by the energizing segment; and a patient positioner received within the treatment area. 18. A particle therapy system for treating a patient, comprising: an ion source; an injector that extracts an ion beam from the ion source; a beam tube coupled to the injector to receive the ion beam from the injector, the beam tube defining a beam track that includes an annular portion circumscribing a volume and an arcuate portion in fluid communication with the annular portion and extending at least partially inward from the annular portion; and a beam delivery device coupled to the arcuate portion and extending radially inward from the annular portion of the beam track into a patient treatment area contained in the volume circumscribed by the annular portion. 19. The particle therapy system of claim 18 , wherein the arcuate portion extends radially inward away from the annular portion in a plane approximately coplanar with the annular portion. 20. The particle therapy system of claim 18 , wherein a transition portion is formed between the annular portion and the arcuate portion and is in fluid communication with the annular portion and the arcuate portion to direct the ion beam from the annular portion toward the arcuate portion. 21. The particle therapy system of claim 20 , wherein the annular portion extends in a first plane and the arcuate portion extends in a second plane different from the first plane. 22. The particle therapy system of claim 21 , wherein the first plane is obliquely oriented with the second plane.