Streaked radiography of an irradiated foam sample on the National Ignition Facility Journal Articles uri icon

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abstract

  • Streaked x-ray radiography images of annular patterns in an evolving tantalum oxide foam under the influence of a driven, subsonic radiation wave were obtained on the National Ignition Facility. This is the first successful radiography measurement of the evolution of well-defined foam features under a driven, subsonic wave in the diffusive regime. A continuous record of the evolution was recorded on an x-ray streak camera, using a slot-apertured point-projection backlighter with an 8 ns nickel source (7.9 keV). Radiography images were obtained for four different annular patterns, which were corrected using a source-dependent flat-field image. The evolution of the foam features was well-modeled using the 3D KULL radiation hydrodynamics code. This experimental and modeling platform can be modified for scaled high-energy-density laboratory astrophysics experiments.

authors

  • Cooper, ABR
  • Schneider, MB
  • MacLaren, SA
  • Moore, AS
  • Young, PE
  • Hsing, WW
  • Seugling, R
  • Foord, ME
  • Sain, JD
  • May, MJ
  • Marrs, RE
  • Maddox, BR
  • Lu, K
  • Dodson, K
  • Smalyuk, V
  • Graham, P
  • Foster, Jamie
  • Back, CA
  • Hund, JF

publication date

  • March 1, 2013