kw.\*:("Laser implosions")
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Indirect/direct-hybrid drive implosion experiments with X-ray pre-irradiationNISHIKINO, M; SHIRAGA, H; NAKAI, S et al.SPIE proceedings series. 2000, pp 465-472, isbn 0-8194-3484-1Conference Paper
Target design for ignition experiments on the laser Mégajoule facilityGIORLA, J; BASTIAN, J; GALMICHE, D et al.Plasma physics and controlled fusion. 2006, Vol 48, Num 12B, issn 0741-3335, B75-B82Conference Paper
High-gain direct-drive laser fusion with indirect drive beam layout of Laser MégajouleCANAUD, B; GARAUDE, F; CLIQUE, C et al.Nuclear fusion. 2007, Vol 47, Num 12, pp 1652-1655, issn 0029-5515, 4 p.Article
Rep-rated target injection for inertial fusion energyFREY, D. T; GOODIN, D. T; STEMKE, R. W et al.Fusion science and technology. 2005, Vol 47, Num 4, pp 1143-1146, 4 p.Conference Paper
Fabrication and characterization of fast ignition targetsHILL, D. W; CASTILLO, E; STEPHENS, R. B et al.Fusion science and technology. 2004, Vol 45, Num 2, pp 113-116, 4 p.Conference Paper
Recent experimental results on icf target implosions by Z-pinch radiation sources and their relevance to ICF ignition studiesMEHLHORN, T. A; BAILEY, J. E; MANCINI, R. C et al.Plasma physics and controlled fusion. 2003, Vol 45, Num 12A, pp A325-A334, issn 0741-3335Conference Paper
Effects of neutron heating on ignition and energy gain of laser-imploded D-T pelletsJOHZAKI, T; NAKAO, Y; NAKASHIMA, H et al.Laser and particle beams (Print). 1997, Vol 15, Num 2, pp 259-276, issn 0263-0346Article
Performance of the NIF prototype beamletVAN WONTERGHEM, B. M; MURRAY, J. R; SPECK, D. R et al.Fusion technology. 1994, Vol 26, Num 3, pp 702-707, issn 0748-1896, 2Conference Paper
The saturn target for polar direct drive on the national ignition facilityCRAXTON, R. S; JACOBS-PERKINS, D. W.Physical review letters. 2005, Vol 94, Num 9, pp 095002.1-095002.4, issn 0031-9007Article
Experimental and theoretical characterization of the actively controlled thermal environment in a cryogenic hohlraumMOODY, J. D; LONDON, Richard Allan; SANCHEZ, Jorge J et al.Fusion science and technology. 2004, Vol 45, Num 1, pp 27-32, 6 p.Article
Progress in symmetric ICF capsule implosions and wire-array z-pinch source physics for double-pinch-driven hohlraumsCUNEO, M. E; VESEY, R. A; CHITTENDEN, J. P et al.Plasma physics and controlled fusion. 2006, Vol 48, Num 2, issn 0741-3335, R1-R35Article
Investigation of larger poly(α-methylstyrene) mandrels for high gain designs using microencapsulationTAKAGI, Masaru; COOK, Robert; MCQUILLAN, Barry et al.Fusion science and technology. 2004, Vol 45, Num 2, pp 171-175, 5 p.Conference Paper
A modeling of smoothing of nonuniform pressure in laser driven ablative plasmasSHIMUTA, Y; NISHIHARA, K.Japanese journal of applied physics. 1996, Vol 35, Num 4A, pp 2296-2301, issn 0021-4922, 1Article
Geometric arrangement of beamlets in large laser fusion facilitiesRABEAU, M; PITTS, J. H; MENGUE, J.-F et al.Fusion technology. 1993, Vol 23, Num 3, pp 337-341, issn 0748-1896Article
X-ray spectroscopic measurements of direct-drive implosion with low modal non-uniformityOCHI, Y; NISHIMURA, H; MIMA, K et al.Technology reports of the Osaka University. 1998, Vol 48, Num 231937, pp 157-166, issn 0030-6177Article
Postponement of saturation of the Richtmyer-Meshkov instability in a convergent geometryFINCKE, J. R; LANIER, N. E; BATHA, S. H et al.Physical review letters. 2004, Vol 93, Num 11, pp 115003.1-115003.4, issn 0031-9007Article
International conference on plasma physics and controlled nuclear fusion researchNuclear fusion supplement. 1992, Vol 3, issn 0589-1469, 570 p.Conference Proceedings
Demonstrating a target supply for inertial fusion energyGOODIN, D. T; ALEXANDER, N. B; MAXWELL, J. L et al.Fusion science and technology. 2005, Vol 47, Num 4, pp 1131-1138, 8 p.Conference Paper
Target physics scaling for Z-pinch inertial fusion energyOLSON, R. E.Fusion science and technology. 2005, Vol 47, Num 4, pp 1147-1151, 5 p.Conference Paper
MEASUREMENT OF THE 3HE PERMEABILITY OF DT-FILLED FUSED SILICA INERTIAL CONFINEMENT FUSION (ICF) TARGETS TO STUDY THE EFFECTS OF 3HE ON NEUTRON EMISSION DURING IMPLOSIONWERMER, Joseph R; MURDOCK, Hailey M; NOBILE, Arthur et al.Fusion science and technology. 2008, Vol 54, Num 2, pp 569-575, 7 p.Conference Paper
Inertial fusion power development: the path to global warming suppressionMIMA, Kunioki.Nuclear fusion. 2010, Vol 50, Num 1, issn 0029-5515, 014006.1-014006.6Article
Hydrodynamic instabilities in an ablation frontPIRIZ, A. R; PORTUGUES, R. F.Plasma physics and controlled fusion. 2004, Vol 46, Num 6, pp 935-950, issn 0741-3335, 16 p.Article
The prospect of laser fusion in the 21st centuryYAMANAKA, Chiyoe.Laser and particle beams (Print). 2002, Vol 20, Num 1, pp 5-12, issn 0263-0346, 8 p.Conference Paper
Fast heating of ultrahigh-density plasma as a step towards laser fusion ignitionKODAMA, R; NORREYS, P. A; NORIMATSU, T et al.Nature (London). 2001, Vol 412, Num 6849, pp 798-802, issn 0028-0836Article
Three-dimensional characterization of cryogenic target ice layers using multiple shadowgraph viewsEDGELL, D. H; CRAXTON, R. S; BROWN, T et al.Fusion science and technology. 2006, Vol 49, Num 4, pp 616-625, 10 p.Conference Paper