C. A. Back scite author profile

Diffusive supersonic radiation transport, where the ratio of the diffusive radiation front velocity to the material sound speed >2 has been studied in experiments on low density (40 mg/cc to 50 mg/cc) foams. Laser-heated Au hohlraums provided a radiation drive that heated SiO2 and Ta2O5 aerogel foams of varying lengths. Face-on emission measurements at 550 eV provided clean signatures of the radiation breakout. The high quality data provides new detailed information on the importance of both the fill and wall material opacities and heat capacities in determining the radiation front speed and curvature. The Marshak radiation wave transport is studied in a geometry that allows direct comparisons with analytic models and two-dimensional code simulations. Experiments show important effects that will affect even nondiffusive and transonic radiation transport experiments studied by others in the field. This work is of basic science interest with applications to inertial confinement fusion and astrophysics.

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Competing effects of collisional ionization and radiative cooling in inertially confined plasmas

Woolsey

Hammel²,

Keane³

et al. 1998

Phys. Rev. E

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Monoenergetic-Proton-Radiography Measurements of Implosion Dynamics in Direct-Drive Inertial-Confinement Fusion

Séguin

Rygg

et al. 2008

Phys. Rev. Lett.

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C. A. Back

Charged-Particle Probing of X-ray–Driven Inertial-Fusion Implosions

Wavelengths and Energy Levels for the Zn I Isoelectronic Sequence Sn20+ Through U62+

Diffusive, supersonic x-ray transport in radiatively heated foam cylinders

Competing effects of collisional ionization and radiative cooling in inertially confined plasmas

Monoenergetic-Proton-Radiography Measurements of Implosion Dynamics in Direct-Drive Inertial-Confinement Fusion

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