Tomographic interferometry of a filtered high-current vacuum arc plasma

George B. Warr, Richard N. Tarrant, Marcela M.M. Bilek, David R. McKenzie, Jeffrey H. Harris, John Howard, Boyd D. Blackwell

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4 Scopus citations

Abstract

Tomography of a plasma enables the distribution of electron density to be visualized. We report on the design of two tomographic interferometer systems used to measure plasma electron density distributions in a high-current pulsed cathodic vacuum arc. The method is shown to be capable of microsecond time resolution. The spatial resolution of the quasioptical interferometer operating at 2 mm wavelength is 20 mm and the spatial resolution of the waveguide-based interferometer operating at 8 mm wavelength is 50 mm. In both cases the resolution achieved depends on the launching and receiving geometries. We developed criteria for assessing the tomogram for artifacts arising from limited sampling. First results of the spatial and temporal history of plasma in a high-current vacuum arc guided by a curved magnetic filter are presented and indicate poloidal field fluctuations reminiscent of magnetohydrodynamic instabilities in pinches. The applicability of the tomographic interferometry method to optimize plasma transport through the filter is also demonstrated.

Original languageEnglish
Article number073302
JournalJournal of Applied Physics
Volume101
Issue number7
DOIs
StatePublished - 2007

Funding

It is a pleasure to acknowledge the technical expertise contributed by Phil Denniss, John Pigott, and Robert Davies in completing this work. We are also grateful for work done on the project by Andrew Viquerat and for discussions with Luke Ryves and Dr. Daniel Andruczyk. This work was in part supported by the Australian Research Council.

FundersFunder number
Australian Research Council

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