Abstract
A tokamak fusion reactor is expected to operate in steady state for long periods, preferably for weeks on end using efficient, non-inductive current drive. The plasma must be kept free of significant contamination by helium ash and new fuel must be supplied to maintain the burn. In this note we survey some of the problems, particularly those relating to the plasma physics in the discharge. (author).
Citation Formats
Bickerton, R J.
Dynamics of a steady-state D-T burning tokamak plasma.
United Kingdom: N. p.,
1992.
Web.
Bickerton, R J.
Dynamics of a steady-state D-T burning tokamak plasma.
United Kingdom.
Bickerton, R J.
1992.
"Dynamics of a steady-state D-T burning tokamak plasma."
United Kingdom.
@misc{etde_10109328,
title = {Dynamics of a steady-state D-T burning tokamak plasma}
author = {Bickerton, R J}
abstractNote = {A tokamak fusion reactor is expected to operate in steady state for long periods, preferably for weeks on end using efficient, non-inductive current drive. The plasma must be kept free of significant contamination by helium ash and new fuel must be supplied to maintain the burn. In this note we survey some of the problems, particularly those relating to the plasma physics in the discharge. (author).}
place = {United Kingdom}
year = {1992}
month = {May}
}
title = {Dynamics of a steady-state D-T burning tokamak plasma}
author = {Bickerton, R J}
abstractNote = {A tokamak fusion reactor is expected to operate in steady state for long periods, preferably for weeks on end using efficient, non-inductive current drive. The plasma must be kept free of significant contamination by helium ash and new fuel must be supplied to maintain the burn. In this note we survey some of the problems, particularly those relating to the plasma physics in the discharge. (author).}
place = {United Kingdom}
year = {1992}
month = {May}
}