Progress in the Indirect-Drive National Ignition Campaign

O. L. Landen,R. Benedetti,D. Bleuel,T. R. Boehly,D. K. Bradley,J. A. Caggiano,D. A. Callahan,P. M. Celliers,C. J. Cerjan,D. Clark,G. W. Collins,E. L. Dewald,S. N. Dixit,T. Doeppner,D. Edgell,J. Eggert,D. Farley,J. A. Frenje,V. Glebov,S. M. Glenn,S. H. Glenzer,S. W. Haan,A. Hamza,B. A. Hammel,C. A. Haynam,J. H. Hammer,R. F. Heeter,H. W. Herrmann,D. G. Hicks,D. E. Hinkel,N. Izumi,M. Gatu Johnson,O. S. Jones,D. H. Kalantar,R. L. Kauffman,J. D. Kilkenny,J. L. Kline,J. P. Knauer,J. A. Koch,G. A. Kyrala,K. LaFortune,T. Ma,A. J. Mackinnon, A. J. Macphee,E. Mapoles,J. L. Milovich,J. D. Moody,N. B. Meezan,P. Michel,A. S. Moore,D. H. Munro,A. Nikroo,R. E. Olson,K. Opachich,A. Pak,T. Parham,P. Patel,H-S Park, R. P. Petrasso,J. Ralph,S. P. Regan,B. A. Remington,H. G. Rinderknecht,H. F. Robey,M. D. Rosen,J. S. Ross,J. D. Salmonson,T. C. Sangster,M. B. Schneider,V. Smalyuk,B. K. Spears,P. T. Springer,L. J. Suter,C. A. Thomas,R. P. J. Town,S. V. Weber,P. J. Wegner,D. C. Wilson,K. Widmann,C. Yeamans,A. Zylstra,M. J. Edwards,J. D. Lindl,L. J. Atherton,W. W. Hsing,B. J. MacGowan,B. M. Van Wonterghem,E. I. Moses

Plasma physics and controlled fusion（2012）

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摘要

We have carried out precision optimization of inertial confinement fusion ignition scale implosions. We have achieved hohlraum temperatures in excess of the 300 eV ignition goal with hot-spot symmetry and shock timing near ignition specs. Using slower rise pulses to peak power and extended pulses resulted in lower hot-spot adiabat and higher main fuel areal density at about 80% of the ignition goal. Yields are within a factor of 5–6 of that required to initiate alpha dominated burn. It is likely we will require thicker shells (+15–20%) to reach ignition velocity without mixing of ablator material into the hot spot.

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