Tent-induced perturbations on areal density of implosions at the National Ignition Facilitya)
2015; American Institute of Physics; Volume: 22; Issue: 5 Linguagem: Inglês
10.1063/1.4921218
ISSN1527-2419
AutoresR. Tommasini, J. E. Field, B. A. Hammel, O. L. Landen, S. W. Haan, Chantel Aracne-Ruddle, L. R. Benedetti, D. K. Bradley, D. A. Callahan, E. L. Dewald, T. Doeppner, M. Edwards, O. A. Hurricane, N. Izumi, O. Jones, T. Ma, N. B. Meezan, S. R. Nagel, J. R. Rygg, K. Segraves, Michael Stadermann, R. J. Strauser, R. P. J. Town,
Tópico(s)High-pressure geophysics and materials
ResumoAreal density non-uniformities seeded by time-dependent drive variations and target imperfections in Inertial Confinement Fusion (ICF) targets can grow in time as the capsule implodes, with growth rates that are amplified by instabilities. Here, we report on the first measurements of the perturbations on the density and areal density profiles induced by the membranes used to hold the capsule within the hohlraum in indirect drive ICF targets. The measurements are based on the reconstruction of the ablator density profiles from 2D radiographs obtained using pinhole imaging coupled to area backlighting, as close as 150 ps to peak compression. Our study shows a clear correlation between the modulations imposed on the areal density and measured neutron yield, and a 3× reduction in the areal density perturbations comparing a high-adiabat vs. low-adiabat pulse shape.
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