Opacity Measurements of a Hot Iron Plasma Using an X-Ray Laser
- Edwards, M.H.
- Whittaker, D.
- Booth, N.
- Pert, G.J.
- Tallents, G.J.
- Rus, B.
- Mocek, T.
- Koslová, M.
- McKenna, C.
- Delserieys, A.
- Lewis, C.L.S.
- Notley, M.
- Neely, D.
- Mistry, P.
Publication date
January 2006
DOI Publisher
American Physical Society (APS)Abstract
The temporal evolution of the opacity of an iron plasma at high temperature (30–350 eV) and high density (0.001–0.2 g cm-3) has been measured using a nickel-like silver x-ray laser at 13.9 nm. The hot dense iron plasma was created in a thin (50 nm) iron layer buried 80 nm below the surface in a plastic target that was heated using a separate 80 ps pulse of 6–9 J, focused to a 100 µm diameter spot. The experimental opacities are compared with opacities evaluated from plasma conditions predicted using a fluid and atomic physics code
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