Flow Z-pinch plasma production on the FuZE experiment

The Fusion Z Pinch Experiment (FuZE) investigates sheared-flow stabilization of classic m = 0 and m = 1 instabilities in Z pinches with an embedded axial flow. FuZE consists of a 100 cm coaxial plasma accelerator, where neutral gas is ionized and accelerated in a pulsed electrical discharge, followe...

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Bibliographic Details
Published in:Physics of plasmas 2020-11, Vol.27 (11)
Main Authors: Stepanov, A. D., Shumlak, U., McLean, H. S., Nelson, B. A., Claveau, E. L., Forbes, E. G., Weber, T. R., Zhang, Y.
Format: Article
Language:English
Subjects:
Assembly
Axial flow
Circuits
Coaxial plasma accelerators
Conservation
Deflagration
Discharge
Neutral gases
Plasma
Plasma injection
Plasma physics
Propagation velocity
Zeta pinch
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Summary:The Fusion Z Pinch Experiment (FuZE) investigates sheared-flow stabilization of classic m = 0 and m = 1 instabilities in Z pinches with an embedded axial flow. FuZE consists of a 100 cm coaxial plasma accelerator, where neutral gas is ionized and accelerated in a pulsed electrical discharge, followed by a 50 cm assembly region, where pinches are formed. Maintaining the pinch requires continuous plasma injection provided by a deflagration mode in the coaxial accelerator. Two discharge modes, with and without deflagration, are investigated on FuZE. Pinch formation is observed with deflagration only. Plasma velocities in the assembly region are found to match the E × B velocity estimated in the accelerator based on a 1D circuit model, indicating that a 1D MHD approximation may offer a valid description of the plasma in the accelerator channel. The velocity of magnetic field propagation is found to agree with the snowplow model based on momentum conservation, and the lifetime of the pinch is shown to be in agreement with constraints imposed by mass conservation.
ISSN:1070-664X
1089-7674
DOI:10.1063/5.0020481