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Author McCrory, R. L. ♦ Soures, J. M. ♦ Verdon, C. P. ♦ Boehly, T. R. ♦ Bradley, D. K. ♦ Craxton, R. S. ♦ Delettrez, J. A. ♦ Epstein, R. ♦ Jaanimagi, P. A. ♦ Jacobs, S. D. ♦ Keck, R. L. ♦ Kelly, J. H. ♦ Kessler, T. J. ♦ Kim, H. ♦ Knauer, J. P. ♦ Kremens, R. L. ♦ Kumpan, S. A. ♦ Letzring, S. A. ♦ Marshall, F. J. ♦ McKenty, P. W. ♦ Morse, S. F. ♦ Okishev, A. ♦ Seka, W. ♦ Short, R. W. ♦ Skeldon, M. D. ♦ Skupsky, S. ♦ Tracy, M. ♦ Yaakobi, B.
Source United States Department of Energy Office of Scientific and Technical Information
Content type Text
Language English
Subject Keyword PLASMA PHYSICS AND FUSION ♦ INERTIAL CONFINEMENT ♦ OMEGA FACILITY ♦ THERMONUCLEAR IGNITION ♦ NEODYMIUM LASERS ♦ DESIGN ♦ LASER IMPLOSIONS ♦ LASER TARGETS ♦ PLASMA DIAGNOSTICS
Abstract Within the US ICF program the direct-drive method has been chosen using the OMEGA facility based on the Neodymium glass laser. Requirements for the future experiments are reviewed and the design is outlined. {copyright} {ital 1996 American Institute of Physics.}
ISSN 0094243X
Educational Use Research
Learning Resource Type Article
Publisher Date 1996-05-01
Publisher Department University of Rochester
Publisher Place United States
Volume Number 369
Issue Number 1
Technical Publication No. CONF-950476-
Organization University of Rochester


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