High-energy density experiments for Atlas

Summary form only given, as follows. Atlas is a high-energy pulsed-power facility under development at Los Alamos National Laboratory to drive high-energy density experiments. It is optimized for materials properties and hydrodynamics experiments under extreme conditions. The system is designed to i...

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Main Authors: Trainor, R.J., Parsons, W.M., Bartsch, R.R., Benage, J.F., Bowers, R.L., Bowman, D.W., Cochrane, J.C., Davis, H.A., Ekdahl, C.A., Fulton, R.D., Gribble, R.F., Guzik, J., Jones, M.E., Keinigs, R., Kyrala, G., Lee, H., Munson, C., Oro, D., Ney, S.A., Platts, D., Reinovsky, R.E., Roberts, J., Rodriguez, G., Scudder, D.W., Sheppard, M., Shlachter, J.S., Taylor, A., Watt, R.G., Wood, B.
Format: Conference Proceeding
Language:English
Subjects:
70 PLASMA PHYSICS AND FUSION
CAPACITIVE ENERGY STORAGE EQUIPMENT
Capacitors
Electric shock
ENERGY STORAGE
HYDRODYNAMICS
IMPLOSIONS
INERTIAL CONFINEMENT
Laboratories
LINERS
Magnetic field induced strain
Magnetic materials
Material properties
MILITARY TECHNOLOGY, WEAPONRY, AND NATIONAL DEFENSE
NUCLEAR WEAPONS
Plasma density
Plasma diagnostics
Plasma materials processing
RESEARCH PROGRAMS
TEST FACILITIES
USES
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Summary:Summary form only given, as follows. Atlas is a high-energy pulsed-power facility under development at Los Alamos National Laboratory to drive high-energy density experiments. It is optimized for materials properties and hydrodynamics experiments under extreme conditions. The system is designed to implode heavy liner loads with a peak current of 30-40 MA delivered in /spl sim/4 /spl mu/s. Atlas will be operational in near the end of 2000 and is designed to provide 100 shots per year. The Atlas capacitor bank consists of an array 240-kV Marx modules storing a total of 24-MJ. For many applications the Atlas liner will be a nominal 50-gram-aluminum cylinder with /spl sim/5-cm radius and 4-cm length. Implosion velocities up to 20 km/s are predicted. Using composite inner layers and a variety of interior target designs, a wide variety of experiments in /spl sim/cm/sup 3/ volumes may be performed. These include shock compression experiments up to /spl sim/2 TPa (20 Mbar), quasi-adiabatic compressions up to 6-fold compression and pressures above 10 TPa, hydrodynamic instability studies in nonlinear and turbulent regimes over multi-cm propagation lengths, experiments with dense, strongly-coupled plasmas, studies of materials response at very high strains and strain rates, and materials studies in ultrahigh magnetic fields (above 10/sup 3/ T). Experimental configurations, associated physics issues, and diagnostic strategies will be discussed. Near-term proof-of-principle experiments on the smaller Pegasus II capacitor bank will be identified.
ISSN:0730-9244
2576-7208
DOI:10.1109/PLASMA.1998.677835