rf gas plasma source development for heavy ion fusion

Abstract: Presently the Heavy Ion Fusion Virtual National Laboratory is researching ion sources and injector concepts to understand how to optimize beam brightness over a range of currents (50–2000 mA argon equivalent). One concept initially accelerates millimeter size, milliamp beamlets to 1 MeV before merging them into centimeter size, ampere beams. Computer simulations have shown the final brightness of the merged beams is dominated by the emittance growth of the merging process, as long as the beamlets’ ion temperat… Show more

“…Applications include neutral beam injection for fusion heating [1,2], and next generation injectors for hadron accelerators [3]. The understanding of the plasma chemistry of negative ion formation is continuing at many research groups worldwide [4][5][6][7]. Current thought on volume production is a two step process [8,9].…”

EEDF Measurements in the Diffusion‐extraction Region of a Plasma in ARIS (Applied Radio‐frequency Ion Source)

“…Applications include neutral beam injection for fusion heating [1,2], and next generation injectors for hadron accelerators [3]. The understanding of the plasma chemistry of negative ion formation is continuing at many research groups worldwide [4][5][6][7]. Current thought on volume production is a two step process [8,9].…”

EEDF Measurements in the Diffusion‐extraction Region of a Plasma in ARIS (Applied Radio‐frequency Ion Source)

Fast mechanical shutter for pulsed ion beam generation

High current density ion beam formation from plasma of electron cyclotron resonance discharge