Current advances on Talbot–Lau x-ray imaging diagnostics for high energy density experiments (invited)

Current advances on Talbot–Lau x-ray imaging diagnostics for high energy density experiments (invited)

Talbot–Lau x-ray interferometry is a refraction-based diagnostic that can map electron density gradients through phase-contrast methods. The Talbot–Lau x-ray deflectometry (TXD) diagnostics have been deployed in several high energy density experiments. To improve diagnostic performance, a monochroma...

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Veröffentlicht in:Review of scientific instruments 2022-11, Vol.93 (11)
Hauptverfasser: Valdivia, M. P., Perez-Callejo, G., Bouffetier, V., Collins, IV, G. W., Stoeckl, C., Filkins, T., Mileham, C., Romanofsky, M., Begishev, I. A., Theobald, W., Klein, S. R., Schneider, M. K., Beg, F. N., Casner, A., Stutman, D.
Format: Artikel
Sprache:eng
Schlagworte:
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
High energy density physics
Plasma properties and parameters
X-ray imaging
X-ray interferometry
X-ray phase contrast imaging
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Zusammenfassung:Talbot–Lau x-ray interferometry is a refraction-based diagnostic that can map electron density gradients through phase-contrast methods. The Talbot–Lau x-ray deflectometry (TXD) diagnostics have been deployed in several high energy density experiments. To improve diagnostic performance, a monochromatic TXD was implemented on the Multi-Tera Watt (MTW) laser using 8 keV multilayer mirrors (Δθ/θ = 4.5%-5.6%). Copper foil and wire targets were irradiated at 1014–1015 W/cm2. Laser pulse length (~10 to 80 ps) and backlighter target configurations were explored in the context of Moiré fringe contrast and spatial resolution. Foil and wire targets delivered increased contrast
ISSN:0034-6748
1089-7623