Abstract :
A standard design for heavy ion fusion drivers under study in the US. Is an induction linac with electrostatic focusing at low energy and magnetic focusing at higher energy. The need to focus the intense beam to a few-millimeter size spot at the deuterium-tritium target establishes the emittance budget for the accelerator. Economic and technological considerations favor a larger number of beams in the low-energy, electrostatic-focusing section than in the high-energy, magnetic-focusing section. Combining four beams into a single focusing channel is a viable option, depending on the growth in emittance due to the combining process. Several significant beam dynamics issues that are, or have been, under active study are discussed: large space charge and image forces, beam wall clearances, halos, alignment, longitudinal instability, and bunch length control
Keywords :
beam handling techniques; collective accelerators; ion accelerators; particle beam dynamics; particle beam focusing; particle beam fusion accelerators; particle beam stability; beam wall clearances; bunch length control; deuterium-tritium target; electrostatic focusing; electrostatic-focusing section; emittance budget; focusing channel; heavy ion fusion drivers; image forces; induction linac; longitudinal instability; space charge; Acceleration; Ballistic transport; Focusing; Fuel economy; Ion accelerators; Ion beams; Linear particle accelerator; Magnetic cores; Particle beams; Power generation economics;
