Matter and Radiation at Extremes (Mar 2019)

Core structure and secondary breakdown of an exploding wire in the current-pause regime

  • V. M. Romanova,
  • A. R. Mingaleev,
  • A. E. Ter-Oganesyan,
  • T. A. Shelkovenko,
  • G. V. Ivanenkov,
  • S. A. Pikuz

DOI
https://doi.org/10.1063/1.5085487
Journal volume & issue
Vol. 4, no. 2
pp. 026401 – 026401-9

Abstract

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The results of experiments with rapidly exploding thin conductors in the current-pause regime are presented. Copper wires 25 μm in diameter and 12 mm in length serve as loads for a GVP pulsed generator based on a low-inductance capacitor. The generator produces current pulses of up to 10 kA with dI/dt up to 50 A/ns. A 100–800-ns current-pause regime is obtained for charging voltages of 10–15 kV. The discharge channel structure is studied by shadow photography using 0.53-μm, 10-ns second-harmonic pulses from a Nd3+:YAG laser. In the experiments, three types of secondary breakdown are observed, with different symmetry types, different current-pause durations, and different dependences on the energy deposited into the wire during its resistive heating. All of these breakdown types develop inside a tubular core that is produced in the current-pause stage and that remains almost undamaged by the breakdown.