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Quintenz, J.P.; Mehlhorn, T.A.; Adams, R.G.; Allshouse, G.O.; Aubert, J.H.; Bacon, L.D.; Bailey, J.E.; Bloomquist, D.D.; Boyes, J.; Chandler, G.A.
Sandia National Labs., Albuquerque, NM (United States). Funding organisation: USDOE, Washington, DC (United States)1994
Sandia National Labs., Albuquerque, NM (United States). Funding organisation: USDOE, Washington, DC (United States)1994
AbstractAbstract
[en] The goal of the light ion inertial confinement fusion (ICF) program is high fusion yield for defense and energy applications. The first lithium-driven hohlraum experiments at 1400 TW/g are reported. The lithium beam intensity is presently limited to 1.4 ± 0.4 TW/cm2 (averaged over a 6 mm diameter sphere) due to a combination of beam divergence and limited lithium beam power. Surface contamination in the diode plays an important role in limiting the lithium power. Concepts have been developed for beam transport over several meters. Synergism exists between light- and heavy-ion ICF in areas such as transport and target physics
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1994; 8 p; 15. international conference on plasma physics and controlled nuclear fusion research; Seville (Spain); 26 Sep - 1 Oct 1994; IAEA-CN--60/B-1-I-6; CONF-940933--2; CONTRACT AC04-94AL85000; Also available from OSTI as DE94019182; NTIS; US Govt. Printing Office Dep
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