liu de-bin, qiu long-hui, fu zhi-bing, et al. Method to fabricate self-adaptable cylindric wire-array load for Z-pinch physical experiments[J]. High Power Laser and Particle Beams, 2004, 16.
Citation:
liu de-bin, qiu long-hui, fu zhi-bing, et al. Method to fabricate self-adaptable cylindric wire-array load for Z-pinch physical experiments[J]. High Power Laser and Particle Beams, 2004, 16.
liu de-bin, qiu long-hui, fu zhi-bing, et al. Method to fabricate self-adaptable cylindric wire-array load for Z-pinch physical experiments[J]. High Power Laser and Particle Beams, 2004, 16.
Citation:
liu de-bin, qiu long-hui, fu zhi-bing, et al. Method to fabricate self-adaptable cylindric wire-array load for Z-pinch physical experiments[J]. High Power Laser and Particle Beams, 2004, 16.
In Z-pinch physical experiments carried out on accelerators with horizontal cathode and anode, the distance between the electrodes will shorten by a scale of 2 ~3 mm while the chamber is pumped to vacuum. Due to this change, wires of the cylindric array loaded between the electrodes will loosen to a degree beyond the physical experiments. To solve this problem and to make sure that the wire-array can be fabricated, stored, transported and loaded to the electrodes, we make use of the spring's flexibilities and have developed a set of techniques to fabricate singlewalled cylindric wirearray. Due to the pressed spring, the fabricated wirearray will themselves fit the distance changes of the electrodes. And the loads can keep their designed initial states required by physical experiment