Achieving full 1.8 MJ, 500 TW laser performance on the national ignition facility

S N Dixit,J M Di Nicola,Scott C Burkhart,Paul J Wegner,Abdul A S Awwal,Corey V Bennett,M W Bowers,Michael Borden, T Budge, J A Campbell, Linli Chang, Kenneth A Christensen,Alan D Conder, Jieming Chou,G Erbert,Edward A Feigenbaum,John E Heebner,M A Henesian,M Hermann, V J Hernandez,K S Jancaitis, K N Lafortune,Robin J Leach,R Lowewebb,B J Macgowan, K Mccandless, M C Nostrand,Charles D Orth,L Pelz, S Pratuch, J C Palma, M Rever,Richard A Sacks,J T Salmon,Mary Shaw, David A Smauley, Larry K Smith, S G Sommer,B Van Wonterghem,Pamela K Whitman, K Wilhelmsen, Jen Nan Wong, C C Widmayer,S Yang

Lasers and Electro-Optics（2013）

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摘要

We have achieved the NIF design goals for power and energy by delivering 1.86 MJ of ultra-violet energy in a wide dynamic range (>300:1), 22.5-ns shaped ignition pulse with a peak power of 520 TW.

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关键词

fusion reactor design,laser fusion,optical pulse shaping,nif design,national ignition facility,ignition pulse shaping,laser performance,power 500 tw,power 520 tw,time 22.5 s,ultraviolet energy,ignition

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