TY - GEN
T1 - Development of Talbot-Lau phase-contrast method for high energy density plasma diagnostics
AU - Valdivia, M. P.
AU - Stutman, D.
AU - Finkenthal, M.
PY - 2013
Y1 - 2013
N2 - Phase-contrast x-ray imaging techniques can detect density gradients in low-Z matter with the sensitivity and spatial resolution necessary to characterize High Energy Density Laboratory Plasma (HEDLP) experiments. The Talbot-Lau interferometer measures x-ray beam angular deviations due to refraction index gradients along its path, thus making it an attractive plasma diagnostic. The Talbot-Lau interferometer can simultaneously provide x-ray attenuation, refraction, and scatter images which may offer a simple diagnostic for micro instabilities. We extend the Talbot-Lau method used for medical applications to lower x-ray energies, high magnification and high spatial resolution HEDLP experiments require. We study and develop single image based phase-retrieval techniques. The experimental and simulated results obtained show a clear advantage of the Talbot-Lau Moiré technique over the attenuation and propagation methods. The Moiré technique can detect both sharp and smooth density gradients, using extended, polychromatic, incoherent, line and continuum x-ray sources, thus allowing for less demanding backlighters than those typically used in HEDLP radiography.
AB - Phase-contrast x-ray imaging techniques can detect density gradients in low-Z matter with the sensitivity and spatial resolution necessary to characterize High Energy Density Laboratory Plasma (HEDLP) experiments. The Talbot-Lau interferometer measures x-ray beam angular deviations due to refraction index gradients along its path, thus making it an attractive plasma diagnostic. The Talbot-Lau interferometer can simultaneously provide x-ray attenuation, refraction, and scatter images which may offer a simple diagnostic for micro instabilities. We extend the Talbot-Lau method used for medical applications to lower x-ray energies, high magnification and high spatial resolution HEDLP experiments require. We study and develop single image based phase-retrieval techniques. The experimental and simulated results obtained show a clear advantage of the Talbot-Lau Moiré technique over the attenuation and propagation methods. The Moiré technique can detect both sharp and smooth density gradients, using extended, polychromatic, incoherent, line and continuum x-ray sources, thus allowing for less demanding backlighters than those typically used in HEDLP radiography.
KW - Moiré deflectometry
KW - phase-contrast imaging
KW - Talbot-Lau Interferometer
KW - x-ray diagnostics
UR - http://www.scopus.com/inward/record.url?scp=84890468722&partnerID=8YFLogxK
U2 - 10.1109/SOFE.2013.6635477
DO - 10.1109/SOFE.2013.6635477
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AN - SCOPUS:84890468722
SN - 9781479901715
T3 - 2013 IEEE 25th Symposium on Fusion Engineering, SOFE 2013
BT - 2013 IEEE 25th Symposium on Fusion Engineering, SOFE 2013
T2 - 2013 IEEE 25th Symposium on Fusion Engineering, SOFE 2013
Y2 - 10 June 2013 through 14 June 2013
ER -