Ignitor was proposed as a breakthrough in reaching ignition in a high magnetic field. The evolution of the plasma parameters is analyzed. Different growth scenarios for the plasma current and density are considered to optimize the global plasma performance while satisfying stability requirements. The toroidal field is consistent with the current increase adopted. The alpha particles produced are considered only as a power source for electron and ion thermal energy. The effects of the current ramp rate are discussed, and the importance of the density profile growth is indicated. The results show that stable trajectories through the (l(i),q(psi)) plane can be obtained, assuming the inward pinch is not too large, a (65135) deuterium-tritium mixture still yields acceptable performance, and a 10% prompt loss of alpha particles is allowed.
Ignited and high-Q plasmas in Ignitor
1994
Abstract
Ignitor was proposed as a breakthrough in reaching ignition in a high magnetic field. The evolution of the plasma parameters is analyzed. Different growth scenarios for the plasma current and density are considered to optimize the global plasma performance while satisfying stability requirements. The toroidal field is consistent with the current increase adopted. The alpha particles produced are considered only as a power source for electron and ion thermal energy. The effects of the current ramp rate are discussed, and the importance of the density profile growth is indicated. The results show that stable trajectories through the (l(i),q(psi)) plane can be obtained, assuming the inward pinch is not too large, a (65135) deuterium-tritium mixture still yields acceptable performance, and a 10% prompt loss of alpha particles is allowed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
