Determining the resistance of X-pinch plasma

The current and the voltage of an X-pinch were measured. The inductance of the X-pinch was assumed to be a constant and estimated by the calculation of the magnetic field based on the well-known Biot–Savart’s Law. The voltage of the inductance was calculated with L · di/dt and subtracted from the me...

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Bibliographic Details
Published in:Chinese physics B 2013-04, Vol.22 (4), p.344-349
Main Author: 赵屾 薛创 朱鑫磊 张然 罗海云 邹晓兵 王新新 宁成 丁宁 束小建
Format: Article
Language:English
Subjects:
Constants
Electric potential
Electric wire
Electrically conductive
Exploding wires
Inductance
Mathematical analysis
Plasma (physics)
Voltage
X箍缩
几乎相等
爆炸线
物理过程
电流
电阻比
等离子体
金属线
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Summary:The current and the voltage of an X-pinch were measured. The inductance of the X-pinch was assumed to be a constant and estimated by the calculation of the magnetic field based on the well-known Biot–Savart’s Law. The voltage of the inductance was calculated with L · di/dt and subtracted from the measured voltage of the X-pinch. Then, the resistance of the X-pinch was determined and the following results were obtained. At the start of the current flow the resistance of the exploding wires is several tens of Ohms, one order of magnitude, higher than the metallic resistance of the wires at room temperature, and then it falls quickly to about 1 , which reflects the physical processes occurring in the electrically exploding wires, i.e., a current transition from the highly resistive wire core to the highly conductive plasma. It was shown that the inductive contribution to the voltage of the X-pinch is less than the resistive contribution. For the wires we used, the wires’ material and diameter have no strong influence on the resistance of the X-pinch, which may be explained by the fact that the current flows through the plasma rather than through the metallic wire itself. As a result, the current is almost equally divided between two parallel X-pinches even though the diameter and material of the wires used for these two X-pinches are significantly different.
ISSN:1674-1056
2058-3834
1741-4199
DOI:10.1088/1674-1056/22/4/045205