Magnetically Driven Supersonic Plasma Jets in High Energy Density Experiments

Magnetically Driven Supersonic Plasma Jets in High Energy Density Experiments

Collimated outflows (jets) are ubiquitous in the universe, appearing around sources as diverse as protostars and extragalactic supermassive black holes. Jets are thought to be magnetically collimated, and launched from a magnetized accretion disk surrounding a compact gravitating object We have deve...

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Veröffentlicht in:Interactions, Patterns, and Turbulence Patterns, and Turbulence, 2009-12, Vol.1242, p.266-275
Hauptverfasser: Suzuki-Vidal, F, Lebedev, S V, Ciardi, A, Bland, S N, Chittenden, J P, Half, G N, Harvey-Thomson, A, Marocchino, A, Frank, A, Blackman, E G, Stehle, C, Camenzind, M
Format: Artikel
Sprache:eng
Schlagworte:
Acceleration
Accretion disks
Black holes (astronomy)
Bubbles
Channels
Colleges
Collimation
Compact disks
Ejection
Energy density
Holes
Jets
Launching
Outflow
Plasma jets
Propagation
Protostars
Universe
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Zusammenfassung:Collimated outflows (jets) are ubiquitous in the universe, appearing around sources as diverse as protostars and extragalactic supermassive black holes. Jets are thought to be magnetically collimated, and launched from a magnetized accretion disk surrounding a compact gravitating object We have developed the first laboratory experiment to address time-dependent, episodic phenomena relevant to the poorly understood jet acceleration and collimation region [1]. The experiments were performed on the MAGPIE pulsed power facility (1.5 MA, 250 ns) at Imperial College. The experimental results show the periodic ejections of magnetic bubbles naturally evolving into a heterogeneous jet propagating inside a channel made of self-collimated magnetic cavities. The results provide a unique view of the possible transition from a relatively steady-state jet launching to the observed highly structured outflows.
ISSN:0094-243X