Patent Number: 046876170
Section: claims

1. A steady-state method of maintaining an inductively formed spheromak plasma comprising the steps of: (a) inductively producing a spheromak plasma by:  evacuating a vacuum vessel and filling said vessel with a neutral species;  producing a first poloidal magnetic field within said vacuum vessel; producing a second poloidal magnetic field within said vacuum vessel by pulsing a current I.sub.pf in a first direction through a poloidal field generating coil, the poloidal field generating coil being located in a toroidally shaped flux core within the vacuum vessel, such that the first and second poloidal magnetic fields are superimposed to form a composite poloidal magnetic field .psi. within said vacuum vessel having regions of stronger and weaker strength;  producing a toroidal magnetic field .PHI. in said vacuum vessel by passing a current I.sub.TF through a toroidal field generating coil which is located in the flux core, thereby initiating a plasma discharge and causing toroidal flux to appear outside of the flux core;  expanding the plasma in the direction of said region of weaker poloidal magnetic field strength;  (b) forming a linked toroidal spheromak plasma from said expanded plasma in which some flux surfaces of said spheromak plasma link both the plasma and the core; and  (c) oscillating the poloidal and toroidal magnetic fields .psi. and .PHI., while said plasma flux surfaces are linked to both the plasma and the core, such that .psi. and .PHI. have different phases.  (d) completely pinching off a portion of said expanded plasma from said flux core, said completely pinched off plasma forming a detached toroidal spheromak plasma and;  (e) reconnecting the flux surfaces said spheromak plasma to said flux core such that some magnetic flux links both the plasma and the core such that a linked spheromak plasma is formed.  (a) inductively producing a spheromak plasma by:  evacuating a vacuum vessel and filling said vessel with a neutral species;  producing a first poloidal magnetic field within said vacuum vessel;  producing a second poloidal magnetic field within said vacuum vessel by pulsing a current I.sub.PF in a first direction through a poloidal field generating coil being located in a toroidally shaped flux core within the vacuum vessel, such that the first and second poloidal magnetic fields are superimposed to form a composite poloidal magnetic field within said vacuum vessel having regions of stronger and weaker strength;  producing a toroidal magnetic field .PHI. in said vacuum vessel by passing a current I.sub.TF through a toroidal field generating coil which is located in the flux core, thereby initiating a plasma discharge and causing toroidal flux to appear outside of the flux core;  expanding the plasma in the direction of said region of weaker poloidal magnetic field strength;  completely pinching off a portion of said expanded plasma from said flux core, said completely pinched off plasma portion forming a detatched toroidal spheromak plasma, by setting I.sub.PF .ltoreq.0;  (b) setting I.sub.TF =0;  (c) reconnecting the flux surfaces said spheromak plasma to said flux core, such that some magnetic flux links both the plasma and the core, by increasing I.sub.PF while I.sub.TF =0;  (d) injecting toroidal flux into said reconnected plasma by setting I.sub.TF &gt;0; and  (e) oscillating .psi. and .PHI. such that .psi. and .PHI. have different phases. 2. The method of claim 1 wherein .psi. and .phi. are oscillated according to the relationship: EQU .psi.=.psi..sub.0 +.psi..sub.1 cos .omega.t 3. The method of claim 2 where .delta.=-.pi./2. 4. The method of claim 1 wherein said linked spheromak plasma is formed by: 5. The method of claim 4 wherein step (d) is accomplished by letting I.sub.PF .ltoreq.0. 6. The method of claim 5 wherein step (e) is accomplished by letting I.sub.PF &gt;0, with I.sub.TF =0. 7. A quasi-steady-state method of maintaining an inductively formed plasma comprising the steps of: 8. The method of claim 1 wherein said plasma is pinched off by energizing a set of pinching coils located near the flux core. 9. The method of claim 1 wherein said plasma is pinched off by simultaneously reversing the directions of I.sub.PF and I.sub.TF. 10. The method of claim 1 wherein said linked spheromak plasma is formed by pinching off a portion of said expanded plasma such that some flux surfaces of said spheromak plasma remain connected to the core.