Patent Number: 
Section: claims

1. A plasma injection system for space charge neutralization of an ion beam, comprising:a first array of magnets and a second array of magnets positioned along at least a portion of an ion beam path the first array being on a first side of the ion beam path to produce a first multi-cusp magnetic field, and the second array being on a second side of the ion beam path to produce a second multi-cusp magnetic field, and the first side opposing the second side, at least two adjacent magnets in the first array of magnets having opposite polarity; anda plasma source configured to generate a plasma in a plasma chamber, the plasma source having a magnetic source to generate a local dipole magnetic field in the plasma chamber, and the plasma source having an aperture, wherein the local dipole magnetic field is aligned with the aperture and the first multi-cusp magnetic field to distribute the plasma along the ion beam path. 2. The plasma injection system according to claim 1, wherein at least two adjacent magnets in the second array of magnets have opposite polarity. 3. The plasma injection system according to claim 1, wherein the plasma source is further configured to generate the plasma by colliding electrons with a gas, and wherein the gas comprises at least one of an inert gas, an electronegative gas and an electropositive gas. 4. The plasma injection system according to claim 1, wherein the plasma source is embedded in a pole piece along at least a portion of the ion beam path. 5. The plasma injection system according to claim 4, wherein the first array of magnets and second array of magnets are positioned in a beamguide comprising alternating sloped concave portions and sloped convex portions. 6. The plasma injection system according to claim 5, wherein the first array of magnets or the second array of magnets are located at the convex portion of the beamguide. 7. The plasma injection system according to claim 5, wherein the beamguide further comprises a plurality of apertures located at the concave portion of the beamguide. 8. The plasma injection system according to claim 1, wherein at least one of the first array of magnets or the second array of magnets is a permanent magnet or a coil. 9. The plasma injection system according to claim 1, wherein the at least one magnet in the first array or the at least one magnet in the second array is configured to direct the flow of the plasma in a cross-B loop. 10. The plasma injection system according to claim 9, wherein the cross-B loop is formed by at least one of diamagnetic drift, E cross B drift, and curvature drift. 11. The plasma injection system according to claim 1, wherein the first array of magnets are configured interdigitally. 12. The plasma injection system according to claim 1, wherein the second array of magnets are configured interdigitally. 13. The plasma injection system according to claim 1, wherein the first array of magnets and the second array of magnets are positioned in an analyzer magnet. 14. The plasma injection system according to claim 1, wherein the first array of magnets and the second array of magnets are positioned in a collimator magnet. 15. The plasma injection system according to claim 1, wherein the plasma source comprises a microwave source and the magnetic source comprises a coil.