Symmetric Inertial Confinement Fusion Implosions at Ultra-High Laser Energies
作者
S. H. Glenzer,B. J. MacGowan,P. Michel,N. B. Meezan,L. J. Suter,S. N. Dixit,J. L. Kline,G. A. Kyrala,D. K. Bradley,D. A. Callahan,E. L. Dewald,L. Divol,E. G. Dzenitis,M. Edwards,A. V. Hamza,C. Haynam,D. E. Hinkel,D. H. Kalantar,J. D. Kilkenny,O. L. Landen
出处
期刊:Science [American Association for the Advancement of Science] 日期:2010-01-29卷期号:327 (5970): 1228-1231被引量:362
Indirect-drive hohlraum experiments at the National Ignition Facility have demonstrated symmetric capsule implosions at unprecedented laser drive energies of 0.7 megajoule. One hundred and ninety-two simultaneously fired laser beams heat ignition-emulate hohlraums to radiation temperatures of 3.3 million kelvin, compressing 1.8-millimeter-diameter capsules by the soft x-rays produced by the hohlraum. Self-generated plasma optics gratings on either end of the hohlraum tune the laser power distribution in the hohlraum, which produces a symmetric x-ray drive as inferred from the shape of the capsule self-emission. These experiments indicate that the conditions are suitable for compressing deuterium-tritium-filled capsules, with the goal of achieving burning fusion plasmas and energy gain in the laboratory.