Systems for merging of toroidal plasmas
First Claim
1. In a method for generating and confining toroidal plasmas in which a first toroidal plasma is provided in a vacuum chamber in a toroidal plasma confining magnetic field, an electric current is generated in said first plasma in the direction of the minor toroidal axis of the plasma to provide a poloidal magnetic field for plasma confinement, the improvement comprising the steps of providing a second toroidal magnetically confined plasma in the vacuum chamber adjacent said first plasma and having the same major toroidal axis as said first toroidal plasma but displaced from said first toroidal plasma in a direction along the major toroidal axis of both said first toroidal plasma and said second toroidal plasma, said second plasma being magnetically confined by the same toroidal magnetic field as said first plasma, generating an electric current in said second plasma in the direction of the minor toroidal axis of the second toroidal plasma, having a current polarity the same as that of said first toroidal plasma, and merging said first plasma and said second plasma to provide a combined plasma confined within the same poloidal and toroidal magnetic fields.
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Abstract
Methods and apparatus for merging of tokamak plasmas, having applications including pseudo steady-state tokamak operation, refueling, impurity removal and plasma heating. In such systems, currents of two merging tokamak plasmas are provided in the same direction so that the plasma columns attract each other, and the merging of the plasmas is carried out under the control of appropriate guiding fields.
126 Citations
7 Claims
- 1. In a method for generating and confining toroidal plasmas in which a first toroidal plasma is provided in a vacuum chamber in a toroidal plasma confining magnetic field, an electric current is generated in said first plasma in the direction of the minor toroidal axis of the plasma to provide a poloidal magnetic field for plasma confinement, the improvement comprising the steps of providing a second toroidal magnetically confined plasma in the vacuum chamber adjacent said first plasma and having the same major toroidal axis as said first toroidal plasma but displaced from said first toroidal plasma in a direction along the major toroidal axis of both said first toroidal plasma and said second toroidal plasma, said second plasma being magnetically confined by the same toroidal magnetic field as said first plasma, generating an electric current in said second plasma in the direction of the minor toroidal axis of the second toroidal plasma, having a current polarity the same as that of said first toroidal plasma, and merging said first plasma and said second plasma to provide a combined plasma confined within the same poloidal and toroidal magnetic fields.
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