Patent Number: 043549985
Section: claims

1. In a tandem mirror fusion reactor having an elongated central cell extending substantially straight longitudinally along an axis and surrounded by magnetic confinement means providing magnetic flux extending in a column axially between the two ends of said cell for confining plasma ions to motion in a column substantially axially of said cell between the ends thereof, and an end plug at each end of said cell providing an electrostatic potential that reflects plasma ions substantially axially toward the other end of said cell for containing a high temperature plasma in said central cell, and including a mirror coil positioned about the axis of said cell between said central cell and each of said end plugs for generation thereby of a thermal barrier region between said mirror coil and the adjacent end plug, in which barrier region plasma ions are trapped upon collision with each other, a method for removing ions trapped in said barrier region comprising the steps of: (a) applying magnetic field by means of at least one turning coil positioned about the axis of said flux column between each said mirror coil and the respective end plug, with said at least one turning coil being not coaxial with said central cell, to deflect lines of flux passing through said mirror coil to bend the axis of the column of flux in the respective said thermal barrier region in a plane, in which region trapped ions moving substantially axially are thereby caused to drift out of the plasma column perpendicularly to the plane of said bending; and  (b) collecting said ions that drift from the plasma column in said thermal barrier region.  plasma bending means including at least one turning coil positioned about the axis of said flux column between each said mirror coil and the respective end plug, with said at least one turning coil being not coaxial with said central cell, for applying magnetic field to deflect lines of flux passing through said mirror coil to bend the axis of the column of flux in the respective said thermal barrier region in a plane, in which region trapped ions moving substantially axially are thereby caused to drift out of the plasma column perpendicularly to said plane; and means disposed in the path of said drifting ions for collecting ions drifting from the plasma column in said thermal barrier region. 2. A method in accordance with claim 1 wherein the radius R of said bend is chosen such that a desired drift velocity V.sub.d is obtained for said trapped ions as a function of EQU V.sub.d =T.sub.i /ZeBR 3. The method of claim 1 wherein said bending between one said mirror coil and the respective end plug causes plasma ions to drift in a first direction relative to the axial path of the trapped ions, and wherein said bending between the other said mirror coil and the respective end plug causes plasma ions to drift in the opposite direction relative to the axial path of the trapped ions such that net movement of passing ions is cancelled thereby. 4. In a tandem mirror fusion reactor having an elongated central cell extending substantially straight longitudinally along an axis and surrounded by magnetic confinement means for providing magnetic flux extending in a column axially between the two ends of said cell for confining plasma ions to motion in a column substantially axially of said cell between the ends thereof, and an end plug at each end of said cell for providing an electrostatic potential that reflects plasma ions substantially axially toward the other end of said cell for containing a high temperature plasma in said central cell, and including a mirror coil positioned about the axis of said cell between said central cell and each of said end plugs for generation thereby of a thermal barrier region between said mirror coil and its adjacent end plug, in which barrier region plasma ions are trapped upon collision with each other, an apparatus for removing ions trapped in said barrier region comprising: 5. A method according to either of claims 1 and 2 wherein said applied magnetic field bends the axis of the column of flux oppositely at the respective ends of said cell, whereby plasma ions passing between said end plugs are caused to drift oppositely at the respective ends to keep such passing ions in the plasma. 6. Apparatus according to claim 4 wherein said turning coils at the respective ends of said central cell bend the axis of the column of flux oppositely, whereby plasma ions passing between said end plugs are caused to drift oppositely at the respective ends to keep such passing ions in the plasma.