Title :
Transport of intense light ion beams
Author :
Ottinger, Paul F. ; Goodrich, Phillip J. ; Hinshelwood, David D. ; Mosher, David ; Neri, Jesse M. ; Rose, David V. ; Stephanakis, Stavros J. ; Young, Frank C.
Author_Institution :
US Naval Res. Lab., Washington, DC, USA
fDate :
6/1/1992 12:00:00 AM
Abstract :
Theoretical and experimental research concerning two techniques for transporting intense light ion beams is described. The first technique uses the magnetic field associated with a wall-stabilized z-discharge to radially confine and guide the beam, and the second technique uses the magnetic field from a central current-carrying wire. The ion beam for the experiments is generated and weakly focused onto the aperture of the transport system using a pinch-reflex ion diode on the Naval Research Laboratory Gamble II generator. Typically 1.2-MeV, 100-kA proton beams are transported within radii as small as 1 cm. High-efficiency transport of beams has been demonstrated for both techniques over distances of a few metes. Beam charge and current neutralization were also confirmed. Nuclear diagnostics and shadowboxes were used to measure beam transport efficiency and phase space information for comparison with theoretical predictions. Particle transport efficiencies as high as 100% for the z-discharge technique and 80% for the wire-guided technique were observed
Keywords :
beam handling techniques; ion beams; particle beam diagnostics; 1.2 MeV; 100 kA; Gamble II generator; beam transport efficiency; central current-carrying wire; intense light ion beam transport; magnetic field; nuclear diagnostics; phase space information; pinch-reflex ion diode; proton beams; shadowboxes; wall-stabilized z-discharge; Apertures; Diodes; Ion beams; Laboratories; Magnetic confinement; Magnetic fields; Nuclear measurements; Nuclear power generation; Particle beams; Wire;
Journal_Title :
Proceedings of the IEEE
