Title :
Plasma erosion opening switch operation in the 50 ns – 1µs conduction time range
Author :
Weber, B.V. ; Commisso, R.J. ; Cooperstein, G. ; Goodrich, P.J. ; Grossmann, J.M. ; Hinshelwood, D.D. ; Kellogg, J.C. ; Mosher, D. ; Neri, J.M. ; Ottinger, P.F.
Author_Institution :
Plasma Phys. Div., Naval Res. Lab., Washington, DC, USA
Abstract :
Results of PEOS experiments are examined where the conduction time varies from 50 ns to 1 μs. Conduction current scaling is proportional to plasma density in the 50 ns conduction time range, based on interferometry. Far higher density is required to conduct for 1 μ s, and the scaling is less than linear in this regime. The difference between the two cases may be explained by different physical mechanisms that determine the conduction limit: in the 50 ns range, conduction ends when an emission limit is reached; in the 1 μ s range, plasma distortion and displacement by hydrodynamic forces is proposed to limit conduction. These “emission-limited” and “hydro-limited” conduction regimes can be described by a simple plot applicable to all PEOS experiments.
Keywords :
light interferometry; plasma switches; conduction current scaling; conduction time range; higher density; interferometry; physical mechanisms; plasma density; plasma erosion opening switch operation; time 50 ns to 1 mus; Delay effects; Density measurement; Generators; Plasma density; Switches; Weapons;
Conference_Titel :
High-Power Particle Beams, 1990 8th International Conference on
Conference_Location :
Novosibirsk
Print_ISBN :
9.7898102055e+012
