Inertial fusion results from Nova and implication for the future of ICF

Details Inertial fusion results from Nova and implication for the future of ICF Inertial fusion results from Nova and implication for the future of ICF

Oct 1988

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1988ppcn.conf.....k&link_type=abstract

Presented at the 12th International Conference on Plasma Physics and Controlled Nuclear Fusion Research, Nice, France, 12 Oct. 1

Physics

Plasma Physics

1

Flow Stability, Inertial Confinement Fusion, Nova Laser System, Reactor Design, Laser Fusion, Laser Plasma Interactions, Laser Targets

Scientific paper

A key objective of the U.S. Inertial Confinement Fusion Program is to obtain high yield (100 to 1000 MJ) implosions in a laboratory environment. This requires high gain from an inertial fusion target from a driver capable of delivering about 10 MJ. Recent results have been sufficiently encouraging that the U.S. Department of Energy is planning for such a capability called the Laboratory Microfusion Facility (LMF). In the past two years, we have conducted implosion-related experiments with approximately 20 kJ of 0.35-micron laser light in 1-ns temporally flat-topped pulses. These experiments were done with the Nova laser, the primary U.S. facility devoted to radiatively driven inertial confinement fusion. Our results show that we can accurately model a significant fraction of the phenomena required to obtain the fuel conditions needed for high gain. Both the X-ray conversion efficiency and the growth of Rayleigh-Taylor hydrodynamic instabilities are shown to be at acceptable levels. Targets designed so that the shape of the stagnated fuel can be imaged show that the X-ray drive in our hohlraums can be made isotropic to better than 3 percent. With this optimized drive and temporally unshaped laser pulses many critical implosion parameters are measured on targets designed for higher density. Good agreement is obtained with one-dimensional simulations. Maximum compressions of between 20 to 30 in radius are measured with a variety of diagnostics. Improvements in the driver technology are demonstrated; we anticipate operation of Nova at the 50-kJ level at 3 microns.

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