Title :
Features of the plasma-channel formation during the voltage generator with the 1-MV/NS-voltage-rise-rate discharge to the vacuum coaxial line containing either closed via microconductor or open-ended gap
Author :
Volkov, Nikolay B. ; Barakhvostov, S.V. ; Bochkarev, M.B. ; Nagayev, K.A. ; Timoshenkova, O.R. ; Tkachenko, Svetlana I.
Author_Institution :
Inst. of Electrophys., Yekaterinburg, Russia
Abstract :
In our experiments the high-voltage generator “RADAN-220” was discharged to the 15 cm long and 10 cm internal diameter coaxial line. The gap in the central conductor was open-ended or closed via 5-15 mm long and micron diameter wires of Cu, Ni and W. The voltage amplitude - U0=220 kV, stored energy - W=1 J; pulse rise duration - 200-500 ps. Sub-nanosecond voltage pulse rise, electric field radial strength at the micro conductors surface high values (Er ≥ 24 MV/cm for the micro wire with d = 20 μm for the open-ended line) and strong non-uniformity of the line, resulting from the huge difference between the diameters of the central core and conductor in respect to the vacuum chamber diameter - are peculiar properties of our experiments.
Keywords :
copper; energy storage; high-voltage engineering; nickel; plasma applications; pulsed power supplies; tungsten; Cu; Ni; RADAN-220; W; electric field radial strength; energy 1 J; high-voltage generator; microconductors; microwire; plasma-channel formation; size 10 cm; size 15 cm; size 20 mum; size 5 mm to 15 mm; time 200 ps to 500 ps; vacuum chamber; vacuum coaxial line; voltage 220 kV; voltage-rise-rate discharge; Conductors; Discharges (electric); Electrodynamics; Generators; Plasmas; Wires;
Conference_Titel :
Plasma Science (ICOPS), 2013 Abstracts IEEE International Conference on
Conference_Location :
San Francisco, CA
DOI :
10.1109/PLASMA.2013.6633259
