Patent Number: 043308643
Section: claims

1. Apparatus for generation and confinement of a toroidal plasma of noncircular cross section having major and minor toroidal axes, with the plasma being elongated in the direction of the major toroidal axis, comprising means for providing a toroidal magnetic field for plasma confinement in a plasma confinement zone,  means for providing a toroidal current in the plasma for generation of a poloidal magnetic field,  a field shaping coil system for shaping the plasma cross section to stabilize the plasma and axisymmetrically with respect to the major toroidal axis to elongate the plasma in a direction along the major toroidal axis comprising an inner stabilizing coil system having a coil layer comprising a plurality of inner S coil elements aligned to conduct in a direction generally along the direction of the minor toroidal axis and disposed adjacent to and surrounding the plasma confinement zone with a physical contour generally corresponding to the desired elongated outer contour of the plasma, and an outer field shaping coil system having a coil layer comprising a plurality of outer coil elements aligned to conduct in a direction generally along the direction of the minor toroidal axis and being separated from the disposed exteriorly of the inner coil layer  the electrical currents I.sub.S of said inner coil elements and the electrical currents I.sub.F of said outer coil elements being related in each of the coil elements as follows: ##EQU6## where I.sub.S.sup.j is the current in the jth S coil element, I.sub.F.sup.j is the current in the jth F coil element, I.sub.F.sup.j is the current in the jth F coil element for which all S coil electrical currents are zero, M.sub.SF.sup.ij is the mutual inductance between the ith S coil element and the jth F coil element, and M.sub.SS.sup.ij is the mutual inductance between the ith S coil element and the jth S coil element and,  programming means for controlling the currents in the F coil elements of said outer coil layer to minimize the currents I.sub.S.sup.j in the S coil elements of the inner coil layer during plasma generation and confinement. 2. Apparatus in accordance with claim 1 wherein said field shaping coil system is adapted to provide a doublet or higher multiplet cross sectional plasma configuration having one or more internal separatrices. 3. Apparatus in accordance with claim 1 wherein said field shaping coil system is adapted to provide a dee shape cross sectional plasma configuration. 4. Apparatus in accordance with claim 1 wherein said field shaping coil system is adapted to provide an elliptical shape cross sectional plasma configuration. 5. Apparatus in accordance with claim 1 wherein said inner coil layer and said outer coil layer are separated by a neutron blanket structure, and wherein said inner coil layer is adapted to transmit the principal proportion of incident neutron flux. 6. Apparatus in accordance with claim 1 wherein the coil elements of the inner coil layer are parallel-connected with each inner coil layer element being provided with a separately controllable power supply. 7. Apparatus in accordance with claim 1 comprising means for programming the respective flux values of the coil elements of the inner field shaping coil layer to provide predetermined flux values. 8. Apparatus in accordance with claim 1 wherein said programming means comprises means for separately programming the respective currents or flux values of the coil elements of the outer field shaping coil layer. 9. Apparatus in accordance with claim 1 wherein the plasma configuration includes a poloidal divertor zone adjacent to the plasma zone in a direction along the major toroidal axis, provided by a divertor separatrix, and wherein said inner and outer coil layers are disposed surrounding said divertor zone for controlling the position of the divertor separatrix. 10. Apparatus in accordance with claim 1 wherein the number of said coil elements of said outer field shaping coil system is at least as large as the number of said coil elements of said inner stabilizing coil system, and wherein a neutron absorbing blanket structure is provided between said inner stabilizing coil layer and said outer field shaping coil layer.