General computational spectroscopic framework applied to Z-pinch dynamic hohlraum K-shell argon spectra

We describe a general computational spectroscopic framework for interpreting observed spectra. The framework compares synthetic spectra with measured spectra, then optimizes the agreement using the D akota toolkit to minimize a merit function that incorporates established spectroscopic techniques. W...

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Bibliographic Details
Published in:Journal of quantitative spectroscopy & radiative transfer 2006-05, Vol.99 (1), p.1-9
Main Authors: Adams, M.L., Sinars, D.B., Scott, H.A.
Format: Article
Language:English
Subjects:
Plasma diagnostic techniques
Plasma spectroscopy
X-ray spectra
Z-pinch dynamic hohlraum experiments
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Summary:We describe a general computational spectroscopic framework for interpreting observed spectra. The framework compares synthetic spectra with measured spectra, then optimizes the agreement using the D akota toolkit to minimize a merit function that incorporates established spectroscopic techniques. We generate synthetic spectra using the self-consistent nonlocal thermodynamic equilibrium atomic kinetics and radiative transfer code C retin, relativistic atomic structure and cross-section data from H ullac, and detailed spectral line shapes from T otalb. We test the capabilities of both our synthetic spectra model and general spectroscopic framework by analyzing a K-shell argon spectrum from a Z-pinch dynamic hohlraum inertial confinement fusion capsule implosion experiment. The framework obtains close agreement between an experimental spectrum measured by a time integrated focusing spectrometer and the optimal synthetic spectrum. The synthetic spectra show that considering the spatial extent of the capsule and including the effects of optically thick resonance lines significantly affects the interpretation of measured spectra.
ISSN:0022-4073
1879-1352
DOI:10.1016/j.jqsrt.2005.05.002