Optimization of capillary source geometry for maximum pellet exit velocity in electrothermal plasma launchers

Abstract: Deep fueling for large-scale tokamak fusion reactors requires the use of high-velocity pellet injectors. The fuel pellets consist of frozen deuterium or deuterium-tritium ice. A fuel pellet must be launched into the fusion plasma at a high enough velocity to reach the core of the plasma before too much of the pellet melts, ablates and disintegrates. For tokamak fusion reactors, the fusion plasma is predicted to operate at temperatures of up to 15x10 7 °C at its core. At these extreme temperatures, the fuel pel… Show more