Title :
Physical vapor deposited aluminum foils for high energy density physics experiments
Author :
Barthell, B.L. ; Anderson, W.E. ; Gomez, V.M. ; Henneke, B.F. ; Moore, J.E. ; Reeves, G.A. ; Salazar, M.A. ; Townsend, J.D.
Author_Institution :
Los Alamos Nat. Lab., NM, USA
Abstract :
Fabrication of cylindrical aluminum load foils and graded thickness aluminum vacuum opening switch foils is described. Load foils are vaporized by Joule heating and imploded by J/spl times/B forces to stagnate on axis and create soft X-rays. Plasma flow switch foils are mounted to shunt the vacuum power flow channel of a coaxial gun and are vaporized by Joule heating. The resultant graded density plasma is magnetically driven down the annular power flow channel. Opening switch action occurs when the shunt plasma crosses a load slot in the center conductor. These foil components have been used in both the Pegasus and Procyon experiments.
Keywords :
aluminium; channel flow; exploding wires; plasma density; plasma devices; plasma flow; plasma switches; pulsed power switches; vapour deposited coatings; Al; J/spl times/B forces; Joule heating; Pegasus experiments; Procyon experiments; annular power flow channel; center conductor; coaxial gun; cylindrical aluminum load foils; foil components; graded density plasma; high energy density physics experiments; imploded aluminium foils; load slot; physical vapor deposited aluminum foils; plasma flow switch foils; shunt plasma; soft X-rays; vacuum power flow channel; Aluminum; Fabrication; Heating; Load flow; Physics; Plasma density; Plasma x-ray sources; Polymer films; Substrates; Switches;
Conference_Titel :
Pulsed Power Conference, 1995. Digest of Technical Papers., Tenth IEEE International
Conference_Location :
Albuquerque, NM, USA
Print_ISBN :
0-7803-2791-8
DOI :
10.1109/PPC.1995.599743
