Compact lightweight high-performance proton therapy beamline

What is claimed is: 1. A proton therapy system comprising: an accelerator configured to generate a proton beam with an initial energy; and a gantry assembly coupled to said accelerator, wherein a gantry length of said gantry assembly is less than 8 m and wherein said gantry assembly is configured to rotate 360°, said gantry assembly comprising: a scanning nozzle, wherein said scanning nozzle is configured to irradiate said proton beam to an object located proximate to an iso-center of said proton therapy system; two dipole magnets comprising a first dipole magnet and a second dipole magnet, wherein said second dipole magnet is operable to bend said proton beam in a bend radius of approximately 1.5 m, and wherein an outer radius of a cross section of said second dipole magnet is approximately 0.36 m; and five quadrupole magnets, wherein three of said five quadrupole magnets are disposed between said first dipole magnet and said second dipole magnet, wherein a source-to-axis distance (SAD) of said gantry assembly corresponds to a distance from said scanning nozzle to said iso-center and is less than or equal to 1.9 m, and wherein said proton therapy system is configured to deliver said proton beam with a beam spot at said iso-center that is less than sigma 4 mm. 2. The proton therapy system of claim 1 , wherein a maximum magnetic field produced by said second dipole magnet is in the range of 1.45 Tesla to 1.55 Tesla. 3. The proton therapy system of claim 1 , wherein said scanning nozzle comprises a pencil beam scanning nozzle disposed downstream of said second dipole magnet. 4. The proton therapy system of claim 2 , wherein said second dipole magnet weighs less than 10 tons and wherein each of said five quadruple magnets weighs approximately 250 kg. 5. The proton therapy system of claim 1 , wherein said first dipole magnet is operable to bend said proton beam by 50°, and wherein said second dipole magnet is operable to bend said proton beam by 140°. 6. The proton therapy system of claim 1 , wherein said gantry assembly further comprises less than five steering magnets. 7. The proton therapy system of claim 1 , wherein said beam spot size is sigma 3 mm or greater. 8. The proton therapy system of claim 1 , wherein said initial energy is within a range between 220 MeV and 230 MeV. 9. A proton therapy system comprising: an accelerator configured to generate a proton beam with an initial energy; a gantry assembly coupled to said accelerator, wherein a gantry length of said gantry assembly is less than 8 m and wherein said gantry assembly is configured to rotate 360°, said gantry assembly comprising: two bend magnets comprising: a first bend magnet; and a second bend magnet disposed downstream of said first bend magnet, wherein said second bend magnet is operable to cause a bending radius of approximately 1.5 m, and wherein an outer radius of a cross section of said second bend magnet is approximately 0.36 m; five quadrupole magnets, wherein three of said five quadrupole magnets are disposed between said first bend magnet and said second bend magnet; and a scanning nozzle, wherein said second bend magnet is operable to generate a maximum magnetic field of less than or equal to 1.56 Tesla; wherein said scanning nozzle is disposed downstream of said first and said second bend magnets, wherein a source-to-axis distance (SAD) of said gantry assembly corresponds to a distance from said scanning nozzle to an iso-center of said proton therapy system and is less than or equal to 1.9 m, and wherein said proton therapy system is configured to deliver said proton beam with a beam spot at said iso-center that is less than sigma 4 mm, and wherein said proton therapy system is configured to deliver said proton beam with a position accuracy of 1 mm. 10. The proton therapy system of claim 9 , wherein said maximum magnetic field is in the range of 1.45 Tesla to 1.55 Tesla. 11. The proton therapy system of claim 10 , wherein said second bend magnet weighs less than 10 tons, and wherein each of said five quadrupole magnets weighs approximately 250 kg. 12. The proton therapy system of claim 9 , wherein said gantry assembly further comprises less than 5 steering magnets. 13. The proton therapy system of claim 11 , wherein said initial energy is within a range between 220 MeV and 230 MeV. 14. The proton therapy system of claim 1 , wherein said proton therapy system is configured to deliver said proton beam with a position accuracy of 1 mm.