Patent Number: 
Section: claims

1. A method of forming a magnetic field of field reverse topology comprising the steps of injecting a plasma into a chamber,  applying a magnetic field to form a first magnetic field in the chamber having unidirectional field lines,  injecting ion beams into the chamber substantially transverse to the first magnetic field,  trapping the ion beams in betatron orbits within the first magnetic field,  forming a rotating plasma beam within the chamber having a current and an internal magnetic field due to the first magnetic field,  forming a poloidal second magnetic field about the rotating plasma having external field lines outside the rotating plasma extending in a same direction as the field lines of the first magnetic field and internal field lines extending in an opposite direction to the field lines of the first magnetic field,  injecting a current through a betatron flux coil in the chamber,  inducing an azimuthal electric field inside the chamber,  increasing the rotating plasma beam""s rotational velocity,  increasing the second magnetic field""s magnitude beyond the magnitude of the first magnetic field, and  reversing the direction of the internal field within the rotating plasma and forming a combined magnetic field of field reverse topology (FRC). 2. The method of  claim 1  wherein the ion beams are injected substantially transverse to the first magnetic field. claim 1 3. The method of  claim 2  further comprising the step of neutrilizing the ion beams. claim 2 4. The method of  claim 3  further comprising the step of exerting a Lorentz force due to the first magnetic field on the neutralized ion beams to bend the ion beams into betatron orbits. claim 3 5. The method of  claim 4  further comprising the step of draining the neutralized ion beams"" electric polarization. claim 4 6. The method of  claim 1  further comprising the step of maintaining the rotating beam plasma at a predetermined radial size. claim 1 7. The method of  claim 6  further comprising the step of increasing the first magnetic field""s magnitude. claim 6 8. The method of  claim 1  further comprising the step of accelerating the rotating plasma beam to a fusion relevant rotational energy. claim 1 9. The method of  claim 8  further comprising the steps of injecting high energy ion beams into the FRC and trapping the beams in betatron orbits within the FRC. claim 8 10. A method of forming a field reversed configuration magnetic field within a reactor chamber comprising the steps of applying a magnetic field to a reactor chamber in which plasma is filled,  injecting ion beams into the applied magnetic field within the reactor chamber,  forming a rotating plasma beam within the chamber having a poloidal magnetic self-field, and  increasing the rotating plasma beam""s rotational velocity to increase the magnetic self-field""s magnitude beyond the applied magnetic field""s magnitude causing field reversal internal to the rotating plasma beam and formation of a combined magnetic field having a field reverse configuration (FRC). 11. The method of  claim 10  wherein the step of applying a magnetic field includes energizing a plurality of field coils extending about the chamber. claim 10 12. The method of  claim 10  wherein the ion beams are injected substantially transverse to the applied magnetic field. claim 10 13. The method of  claim 12  wherein the step of injecting the ion beams further comprises the steps of claim 12 neutrilizing the ion beams,  draining the neutralized ion beams"" electric polarization, and  exerting a Lorentz force due to the first magnetic field on the neutralized ion beams to bend the ion beams into betatron orbits. 14. The method of  claim 10  further comprising the step of increasing the applied magnetic field""s magnitude to maintain the rotating beam plasma at a predetermined radial size. claim 10 15. The method of  claim 10  wherein step of increasing the rotating plasma beam""s rotational velocity includes the step of energizing a betatron flux coil within the chamber inducing an azimuthal electric field within the chamber. claim 10 16. The method of  claim 15  further comprising the step increasing the current through the flux coil to accelerate the rotating plasma beam to a fusion relevant rotational energy. claim 15 17. The method of  claim 16  further comprising the steps of injecting high energy ion beams into the FRC and trapping the beams in betatron orbits within the FRC. claim 16