The first measurements of soft x-ray flux from ignition scale Hohlraums at the National Ignition Facility using DANTE

J. L. Kline, K. Widmann, A. Warrick, R. E. Olson, C. A. Thomas, A. S. Moore, L. J. Suter, O. Landen, D. Callahan, S. Azevedo, J. Liebman, S. H. Glenzer, A. Conder, S. N. Dixit, P. Torres, V. Tran, E. L. Dewald, J. Kamperschroer, L. J. Atherton, R. BeelerL. Berzins, J. Celeste, C. Haynam, W. Hsing, D. Larson, B. J. MacGowan, D. Hinkel, D. Kalantar, R. Kauffman, J. Kilkenny, N. Meezan, M. D. Rosen, M. Schneider, E. A. Williams, S. Vernon, R. J. Wallace, B. Van Wonterghem, B. K. Young

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Abstract

The first 96 and 192 beam vacuum Hohlraum target experiments have been fielded at the National Ignition Facility demonstrating radiation temperatures up to 340 eV and fluxes of 20 TW/sr as viewed by DANTE representing an ∼20 times flux increase over NOVA/Omega scale Hohlraums. The vacuum Hohlraums were irradiated with 2 ns square laser pulses with energies between 150 and 635 kJ. They produced nearly Planckian spectra with about 30±10% more flux than predicted by the preshot radiation hydrodynamic simulations. To validate these results, careful verification of all component calibrations, cable deconvolution, and software analysis routines has been conducted. In addition, a half Hohlraum experiment was conducted using a single 2 ns long axial quad with an irradiance of ∼2× 1015 W/cm2 for comparison with NIF Early Light experiments completed in 2004. We have also completed a conversion efficiency test using a 128-beam nearly uniformly illuminated gold sphere with intensities kept low (at 1× 1014 W/cm2 over 5 ns) to avoid sensitivity to modeling uncertainties for nonlocal heat conduction and nonlinear absorption mechanisms, to compare with similar intensity, 3 ns OMEGA sphere results. The 2004 and 2009 NIF half-Hohlraums agreed to 10% in flux, but more importantly, the 2006 OMEGA Au Sphere, the 2009 NIF Au sphere, and the calculated Au conversion efficiency agree to ±5% in flux, which is estimated to be the absolute calibration accuracy of the DANTEs. Hence we conclude that the 30±10% higher than expected radiation fluxes from the 96 and 192 beam vacuum Hohlraums are attributable to differences in physics of the larger Hohlraums.

Original languageEnglish
Article number10E321
JournalReview of Scientific Instruments
Volume81
Issue number10
DOIs
StatePublished - Oct 2010
Externally publishedYes

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