1. Diagnosing the plasma nonuniformity in an iron opacity experiment by spatially resolved Al 1s-2p absorption spectroscopy.
- Author
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Xiaoding, Zhang, Jiyan, Zhang, Yang, Zhao, Gang, Xiong, Bin, Zhao, Guohong, Yang, Jian, Zheng, and Jiamin, Yang
- Subjects
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PLASMA gases , *IRON , *PHYSICS experiments , *SPATIAL analysis (Statistics) , *ABSORPTION spectra , *PHYSICAL measurements , *AXIAL flow , *HEAT radiation & absorption - Abstract
Generating a well-characterized hot-dense sample is of great importance to high quality opacity measurements. In this paper, we report on an experimental investigation of the plasma nonuniformity in a radiatively heated iron opacity sample by spatially resolved Al 1s-2p absorption spectroscopy. The iron sample was tamped by plastic at both sides and was heated by thermal x-ray radiation generated in a gold Hohlraum, and an Al layer attached to it was used as a tracer for temperature diagnosis. Spatially resolved 1s-2p transition absorption spectra of the Al tracer were measured by the technique of point-projection-spectroscopy, and temperatures in the sample were obtained by comparing the measured spectra with detailed-term-accounting model calculations, with the density of the sample deduced using a combination of side-on radiography and radiative hydrodynamic simulation. The results showed the existence of axial temperature nonuniformity in the sample, and these temperature variations have been used to explain the shift of iron 2p-3d transition absorption feature along the axial direction of the Hohlraum used to heat the sample successfully. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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