Design of experiments to spectroscopically characterize radiation flow in stochastic media

Byvank, T.; Coffing, S. X.; Lioce, D. A.; Fryer, C. L.; Fontes, C. J.; Kozlowski, P. M.; Johns, H. M.; Čamdžić, Dž.; Elshafiey, A. T.; Meyerhofer, D. D.; Robey, H. F.; Feltman, J. M.; Recamier, C. L.; Barnak, D. H.; Hamilton, C. E.; Edwards, S. L.; Love, K. N.; Patterson, B. M.; Farhi, B. Y.; Jones, B. J.; Cleveland, J. W.; Day, T. H.; Quintana, T. E.; Wong, C. H.; Christiansen, N. S.; Schmidt, D. W.; Prinja, A. K.; Urbatsch, T. J.

doi:10.1063/5.0198139

Physics of Plasmas

2024

DOI: 10.1063/5.0198139

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Design of experiments to spectroscopically characterize radiation flow in stochastic media

T. Byvank,

S. X. Coffing,

D. A. Lioce

et al.

Abstract: Precise characterization of experimental radiation flow is required to validate the high energy density physics models, numerical methods, and codes that are used to simulate radiation-hydrodynamics phenomena such as thermal radiation transport in stochastic media. The Cassio code is used to simulate thermal radiation flow through inhomogeneous, stochastic-media-foam configurations containing optically thick clumps dispersed within an optically thin background aerogel. Cassio can model small inhomogeneous prob… Show more

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A spectroscopic analysis code for spatially resolved x-ray absorption data from the COAX platform

Čamdžić,

Johns,

Kozlowski

et al. 2024

Review of Scientific Instruments

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Sophisticated tools such as computer vision techniques in combination with 1D lineout type analyses have been used in automating the analysis of spectral data for high energy density (HED) plasmas. Standardized automation can solve the problems posed by the complexity of HED spectra and the quantity of data. We present a spectroscopic code written for automated and streamlined analysis of spatially resolved x-ray absorption data from the COAX platform on Omega-60. COAX uses radiographs and spectroscopic diagnostics to provide shock position and density information. We also obtain the more novel spectral-derived spatial profile of the supersonic radiation flow into a low-density foam. Considerable effort has been spent modernizing our previous spectroscopic analysis method, including the development of new tools characterized by a faster runtime and minimal user input to reduce bias and a testing suite for verifying the accuracy of the various functions within the code. The new code analyzes our spectroscopic images in 1–2 min, with added uncertainty and confidence.

show abstract

A spectroscopic analysis code for spatially resolved x-ray absorption data from the COAX platform

Čamdžić,

Johns,

Kozlowski

et al. 2024

Review of Scientific Instruments

View full text Add to dashboard Cite

show abstract

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Design of experiments to spectroscopically characterize radiation flow in stochastic media

Cited by 1 publication

References 56 publications

A spectroscopic analysis code for spatially resolved x-ray absorption data from the COAX platform

A spectroscopic analysis code for spatially resolved x-ray absorption data from the COAX platform

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