Doppler effects on 3-D non-LTE radiation transport and emission spectra

Spatially and temporally resolved X-ray emission lines contain information about temperatures, densities, velocities, and the gradients in a plasma. Extracting this information from optically thick lines emitted from complex ions in dynamic, three-dimensional, non-LTE plasmas requires self-consisten...

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Veröffentlicht in:	High energy density physics 2011-12, Vol.7 (4), p.303-311
Hauptverfasser:	Hansen, S.B., Jones, B., Giuliani, J.L., Apruzese, J.P., Thornhill, J.W., Scott, H.A., Ampleford, D.J., Jennings, C.A., Coverdale, C.A., Cuneo, M.E., Rochau, G.A., Bailey, J.E., Dasgupta, A., Clark, R.W., Davis, J.
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Sprache:	eng
Schlagworte:	Collisional-radiative Non-LTE Radiative transfer Spectroscopic
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container_end_page	311
container_issue	4
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container_title	High energy density physics
container_volume	7
creator	Hansen, S.B. Jones, B. Giuliani, J.L. Apruzese, J.P. Thornhill, J.W. Scott, H.A. Ampleford, D.J. Jennings, C.A. Coverdale, C.A. Cuneo, M.E. Rochau, G.A. Bailey, J.E. Dasgupta, A. Clark, R.W. Davis, J.
description	Spatially and temporally resolved X-ray emission lines contain information about temperatures, densities, velocities, and the gradients in a plasma. Extracting this information from optically thick lines emitted from complex ions in dynamic, three-dimensional, non-LTE plasmas requires self-consistent accounting for both non-LTE atomic physics and non-local radiative transfer. We present a brief description of a hybrid-structure spectroscopic atomic model coupled to an iterative tabular on-the-spot treatment of radiative transfer that can be applied to plasmas of arbitrary material composition, conditions, and geometries. The effects of Doppler line shifts on the self-consistent radiative transfer within the plasma and the emergent emission and absorption spectra are included in the model. Sample calculations for a two-level atom in a uniform cylindrical plasma are given, showing reasonable agreement with more sophisticated transport models and illustrating the potential complexity – or richness – of radially resolved emission lines from an imploding cylindrical plasma. Also presented is a comparison of modeled L- and K-shell spectra to temporally and radially resolved emission data from a Cu:Ni plasma. Finally, some shortcomings of the model and possible paths for improvement are discussed.
doi_str_mv	10.1016/j.hedp.2011.06.002
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Sample calculations for a two-level atom in a uniform cylindrical plasma are given, showing reasonable agreement with more sophisticated transport models and illustrating the potential complexity – or richness – of radially resolved emission lines from an imploding cylindrical plasma. Also presented is a comparison of modeled L- and K-shell spectra to temporally and radially resolved emission data from a Cu:Ni plasma. 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subjects	Collisional-radiative Non-LTE Radiative transfer Spectroscopic
title	Doppler effects on 3-D non-LTE radiation transport and emission spectra
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