Method and apparatus for shielding a linear accelerator and a magnetic resonance imaging device from each other

What is claimed is: 1. A combined linear particle accelerator (linac) and magnetic resonance imaging system comprising: one or more magnets positioned along a longitudinal axis and configured to generate a magnetic field, at least a portion of the magnetic field extending along the longitudinal axis; a linear particle accelerator configured to direct a radiation beam towards the longitudinal axis; and a magnetic shield configured to shield the linac from the magnetic field, the magnetic shield comprising at least a first magnetic shield shell and a second magnetic shield shell, the second magnetic shield shell separated from and positioned inside the first magnetic shield shell, and the first magnetic shield shell and the second magnetic shield shell at least partially surrounding the linac. 2. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 1 , wherein the second magnetic shield shell has a higher permeability than the first magnetic shield shell. 3. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 2 , wherein the second magnetic shield shell has a lower saturation flux density than the first magnetic shield shell. 4. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 2 , wherein the second magnetic shield shell comprises mu metal. 5. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 2 , wherein the first magnetic shield shell and the second magnetic shield shell are formed of different steels. 6. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 2 , the system further comprising an RF shield configured to shield the one or more magnets from RF radiation generated by the linac, the RF shield at least partially enclosing some or all of the components of the linac, and the RF shield comprising one or more layers of: an RF absorbing material and/or an RF reflecting material. 7. A combined linear particle accelerator (linac) and magnetic resonance imaging system comprising: one or more magnets positioned along a longitudinal axis and configured to generate a magnetic field, at least a portion of the magnetic field extending along the longitudinal axis; a linear particle accelerator configured to direct a radiation beam towards the longitudinal axis; and a magnetic shield configured to shield the linac from the magnetic field, the magnetic shield comprising at least a first magnetic shield shell and a second magnetic shield shell, the second magnetic shield shell separated from and positioned inside the first magnetic shield shell, and the first magnetic shield shell and the second magnetic shield shell at least partially surrounding the linac, the first shell and the second shell magnetically isolated from each other. 8. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 7 , wherein the second magnetic shield shell has a higher permeability than the first magnetic shield shell. 9. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 7 , wherein the second magnetic shield shell has a lower saturation flux density than the first magnetic shield shell. 10. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 7 , wherein the second magnetic shield shell comprises mu metal. 11. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 7 , wherein the first magnetic shield shell and the second magnetic shield shell are formed of different steels. 12. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 7 , the system further comprising an RF shield configured to shield the one or more magnets from RF radiation generated by the linac, the RF shield at least partially enclosing some or all of the components of the linac, and the RF shield comprising one or more layers of: an RF absorbing material and/or an RF reflecting material. 13. A combined linear particle accelerator (linac) and magnetic resonance imaging system comprising: a magnetic resonance imaging system configured to generate a magnetic field; a linear accelerator; an outer magnetic shield configured to shield the linear particle accelerator from the magnetic field; and an inner magnetic shield separated from and at least partially inside of the outer magnetic shield. 14. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 13 , wherein the inner magnetic shield has a higher permeability than the outer magnetic shield. 15. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 14 , wherein the inner magnetic shield has a lower saturation flux density than the outer magnetic shield. 16. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 14 , wherein the inner magnetic shield comprises mu metal. 17. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 14 , wherein the outer magnetic shield and the inner magnetic shield are formed of different steels. 18. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 14 , wherein the outer magnetic shield at least partially surrounds the linac and the inner magnetic shield. 19. The combined linear particle accelerator (linac) and magnetic resonance imaging system of claim 14 , the system further comprising an RF shield configured to shield the one or more magnets from RF radiation generated by the linac, the RF shield at least partially enclosing some or all of the components of the linac, and the RF shield comprising one or more layers of: an RF absorbing material and/or an RF reflecting material.