Magnetized collimated plasma jets are created in the laboratory to extend our understanding of plasma jet acceleration and collimation mechanisms with particular connection to astrophysical jets. In this study, plasma collimated jets are formed from supersonic unmagnetized flows, mimicking a stellar wind, subject to currents and magnetohydrodynamic forces. It is found that an external poloidal magnetic field, like the ones found anchored to accretion disks, is essential to stabilize the jets against current-driven instabilities. The maximum jet length before instabilities develop is proportional to the field strength and the length threshold agrees well with Kruskal-Shafranov theory. The plasma evolution is modeled qualitatively using MHD theory of current-carrying flux tubes showing that jet acceleration and collimation arise as a result of electromagnetic forces.

Topics
Supersonics, Energy production, transmission and distribution, Electromagnetism, Thermodynamic states and processes, Circumstellar disks, Astrophysics, Stellar structure and properties, Magnetohydrodynamics, Plasma confinement, Plasma instabilities
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© 2012 American Institute of Physics.
2012
American Institute of Physics
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