Hohlraum energetics scaling to 520 TW on the National Ignition Facilitya

Hohlraum energetics scaling to 520 TW on the National Ignition Facilitya

Indirect drive experiments have now been carried out with laser powers and energies up to 520 TW and 1.9 MJ. These experiments show that the energy coupling to the target is nearly constant at 84% ± 3% over a wide range of laser parameters from 350 to 520 TW and 1.2 to 1.9 MJ. Experiments at 520 TW...

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Veröffentlicht in:Physics of plasmas 2013-05, Vol.20 (5)
Hauptverfasser: Kline, J. L., Callahan, D. A., Glenzer, S. H., Meezan, N. B., Moody, J. D., Hinkel, D. E., Jones, O. S., MacKinnon, A. J., Bennedetti, R., Berger, R. L., Bradley, D., Dewald, E. L., Bass, I., Bennett, C., Bowers, M., Brunton, G., Bude, J., Burkhart, S., Condor, A., Di Nicola, J. M., Di Nicola, P., Dixit, S. N., Doeppner, T., Dzenitis, E. G., Erbert, G., Folta, J., Grim, G., Glenn, S., Hamza, A., Haan, S. W., Heebner, J., Henesian, M., Hermann, M., Hicks, D. G., Hsing, W. W., Izumi, N., Jancaitis, K., Kalantar, D., Khan, S. F., Kirkwood, R., Kyrala, G. A., LaFortune, K., Landen, O. L., Lagin, L., Larson, D., Pape, S. Le, Ma, T., MacPhee, A. G., Michel, P. A., Miller, P., Montincelli, M., Moore, A. S., Nikroo, A., Nostrand, M., Olson, R. E., Pak, A., Park, H. S., Patel, J. P., Pelz, L., Ralph, J., Regan, S. P., Robey, H. F., Rosen, M. D., Ross, J. S., Schneider, M. B., Shaw, M., Smalyuk, V. A., Strozzi, D. J., Suratwala, T., Suter, L. J., Tommasini, R., Town, R. P. J., Van Wonterghem, B., Wegner, P., Widmann, K., Widmayer, C., Wilkens, H., Williams, E. A., Edwards, M. J., Remington, B. A., MacGowan, B. J., Kilkenny, J. D., Lindl, J. D., Atherton, L. J., Batha, S. H., Moses, E.
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Sprache:eng
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Zusammenfassung:Indirect drive experiments have now been carried out with laser powers and energies up to 520 TW and 1.9 MJ. These experiments show that the energy coupling to the target is nearly constant at 84% ± 3% over a wide range of laser parameters from 350 to 520 TW and 1.2 to 1.9 MJ. Experiments at 520 TW with depleted uranium hohlraums achieve radiation temperatures of ∼330 ± 4 eV, enough to drive capsules 20 μm thicker than the ignition point design to velocities near the ignition goal of 370 km/s. A series of three symcap implosion experiments with nearly identical target, laser, and diagnostics configurations show the symmetry and drive are reproducible at the level of ±8.5% absolute and ±2% relative, respectively.
ISSN:1070-664X
1089-7674
DOI:10.1063/1.4803907