Patent Number: 
Section: claims

1. A confinement system comprising:an enclosure;an open-field magnetic system comprising one or more superconducting internal magnetic coils suspended within the enclosure and co-axial with a center axis of the enclosure, wherein the one or more superconducting internal magnetic coils each have a radius configured to balance the relative field strength between a plurality of point cusps and a plurality of ring cusps;a plurality of encapsulating magnetic coils co-axial with a center axis of the enclosure, the plurality of encapsulating magnetic coils having a larger diameter than the one or more internal magnetic coils of the open-field magnetic system, the plurality of encapsulating magnetic coils operable to form a magnetosphere around the open-field magnetic system; andone or more coil systems configured to supply the open-field magnetic system and the plurality of encapsulating magnetic coils with electrical currents to form magnetic fields for confining plasma within a magnetized sheath in the enclosure, wherein the magnetized sheath and plasma confined within the magnetized sheath encircle each of the one or more internal magnetic coils. 2. The confinement system of claim 1, wherein the plurality of encapsulating magnetic coils are operable to maintain a magnetic wall that prevents the plasma from expanding. 3. The confinement system of claim 1, wherein the plurality of encapsulating magnetic coils are located within the enclosure. 4. The confinement system of claim 1, wherein the one or more internal coils of the open-field magnetic system are toroidal in shape. 5. The confinement system of claim 1, wherein the enclosure is substantially cylindrical in shape. 6. The confinement system of claim 1, wherein the open-field magnetic system comprises a magnetic mirror system. 7. The confinement system of claim 1, wherein the open-field magnetic system comprises a cusp system, the cusp system comprising magnetic fields forming one or more magnetic field cusps. 8. A confinement system comprising:an enclosure;an open-field magnetic system comprising one or more superconducting internal magnetic coils suspended within the enclosure, wherein the one or more superconducting internal magnetic coils each have a radius configured to balance the relative field strength between a plurality of point cusps and a plurality of ring cusps;one or more encapsulating magnetic coils coaxial with the one or more internal magnetic coils of the open-field magnetic system, the one or more encapsulating magnetic coils operable to form a magnetosphere around the open-field magnetic system; andone or more coil systems configured to supply the open-field magnetic system and the one or more encapsulating magnetic coils with electrical currents to form magnetic fields for confining plasma within a magnetized sheath in the enclosure, wherein the magnetized sheath and plasma confined within the magnetized sheath encircle each of the one or more internal magnetic coils. 9. The confinement system of claim 8, wherein the one or more encapsulating magnetic coils have a larger diameter than the one or more internal magnetic coils of the open-field magnetic system. 10. The confinement system of claim 8, wherein the one or more encapsulating magnetic coils are external to the enclosure. 11. The confinement system of claim 8, wherein the open-field magnetic system comprises a magnetic mirror system. 12. The confinement system of claim 8, wherein the open-field magnetic system comprises a cusp system, the cusp system comprising magnetic fields forming one or more magnetic field cusps. 13. A confinement system comprising:an open-field magnetic system comprising one or more superconducting internal magnetic coils suspended within an enclosure, wherein the one or more superconducting internal magnetic coils each have a radius configured to balance the relative field strength between a plurality of point cusps and a plurality of ring cusps;one or more encapsulating magnetic coils coaxial with the one or more internal magnetic coils of the open-field magnetic system, the one or more encapsulating magnetic coils operable to form a magnetosphere around the open-field magnetic system; andone or more coil systems configured to supply the open-field magnetic system and the one or more encapsulating magnetic coils with electrical currents to form magnetic fields for confining plasma within a magnetized sheath in the enclosure, wherein the magnetized sheath and plasma confined within the magnetized sheath encircle each of the one or more internal magnetic coils. 14. The confinement system of claim 13, wherein the one or more encapsulating magnetic coils have a larger diameter than the one or more internal magnetic coils of the open-field magnetic system. 15. The confinement system of claim 13, wherein the one or more encapsulating magnetic coils are external to the enclosure. 16. The confinement system of claim 13, wherein the open-field magnetic system comprises a magnetic mirror system. 17. The confinement system of claim 13, wherein the open-field magnetic system comprises a cusp system, the cusp system comprising magnetic fields forming one or more magnetic field cusps. 18. The confinement system of claim 1, further comprising:a center magnetic coil located proximate to a midpoint of the enclosure; andtwo mirror magnetic coils comprising first and second mirror magnetic coils disposed on opposite sides of the center magnetic coil. 19. The confinement system of claim 1, wherein the one or more coil systems comprise:a center coil system configured to supply first electrical currents flowing in a first direction through a center magnetic coil;an internal coil system configured to supply second electrical currents flowing in a second direction through each of the one or more internal magnetic coils;an encapsulating coil system configured to supply third electrical currents flowing in the first direction through each of the plurality of encapsulating magnetic coils; anda mirror coil system configured to supply fourth electrical currents flowing in the first direction through each of two mirror magnetic coils. 20. The confinement system of claim 1, wherein each of the one or more internal magnetic coils comprise at least a first shielding surrounding the internal magnetic coil and each of the one more internal magnetic coils is suspended within the enclosure by at least one support. 21. The confinement system of claim 8, further comprising:a center magnetic coil located proximate to a midpoint of the enclosure; andtwo mirror magnetic coils comprising first and second mirror magnetic coils disposed on opposite sides of the center magnetic coil. 22. The confinement system of claim 8, wherein the one or more coil systems comprise:a center coil system configured to supply first electrical currents flowing in a first direction through a center magnetic coil;an internal coil system configured to supply second electrical currents flowing in a second direction through each of the one or more internal magnetic coils;an encapsulating coil system configured to supply third electrical currents flowing in the first direction through each of the one or more of encapsulating magnetic coils; anda mirror coil system configured to supply fourth electrical currents flowing in the first direction through each of two mirror magnetic coils. 23. The confinement system of claim 8, wherein each of the one or more internal magnetic coils comprise at least a first shielding surrounding the internal magnetic coil and each of the one more internal magnetic coils is suspended within the enclosure by at least one support. 24. The confinement system of claim 13, further comprising:a center magnetic coil located proximate to a midpoint of the enclosure; andtwo mirror magnetic coils comprising first and second mirror magnetic coils disposed on opposite sides of the center magnetic coil. 25. The confinement system of claim 13, wherein the one or more coil systems comprise:a center coil system configured to supply first electrical currents flowing in a first direction through a center magnetic coil;an internal coil system configured to supply second electrical currents flowing in a second direction through each of the one or more internal magnetic coils;an encapsulating coil system configured to supply third electrical currents flowing in the first direction through each of the one or more of encapsulating magnetic coils; anda mirror coil system configured to supply fourth electrical currents flowing in the first direction through each of two mirror magnetic coils. 26. The confinement system of claim 13, wherein each of the one or more internal magnetic coils comprise at least a first shielding surrounding the internal magnetic coil and each of the one more internal magnetic coils is suspended within the enclosure by at least one support.