Radiative precursors driven by converging blast waves in noble gases

A detailed study of the radiative precursor that develops ahead of converging blast waves in gas-filled cylindrical liner z-pinch experiments is presented. The experiment is capable of magnetically driving 20 km/s blast waves through gases of densities of the order 1E-5 g/cc. Data was collected for...

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Bibliographic Details
Main Authors: Burdiak, Guy C., Lebedev, S. V., Bland, S., Suzuki-Vidal, F., Swadling, G. F., Suttle, L., Bennet, M., Williams, Robin J. R., Blesener, Kate
Format: Conference Proceeding
Language:English
Subjects:
Atomic measurements
Educational institutions
Electric shock
Gases
Laboratories
Physics
Plasmas
Online Access:Request full text
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Summary:A detailed study of the radiative precursor that develops ahead of converging blast waves in gas-filled cylindrical liner z-pinch experiments is presented. The experiment is capable of magnetically driving 20 km/s blast waves through gases of densities of the order 1E-5 g/cc. Data was collected for Ne, Ar and Xe gas-fills. The geometry of the setup allows a determination of the plasma parameters both in the precursor and across the shock, along a nominally uniform line of sight that is perpendicular to the propagation of the shock waves. Radiation from the shock was able to excite NeI, ArII and XeII/XeIII precursor spectral features. It is shown that the combination of interferometry and optical spectroscopy data is inconsistent with upstream plasmas being in LTE. Specifically, radial electron density gradients do not correspond to any apparent temperature change in the emission spectra.
ISSN:0730-9244
2576-7208
DOI:10.1109/PLASMA.2014.7012506