Issue |
EAS Publications Series
Volume 58, 2012
ECLA - European Conference on Laboratory Astrophysics
|
|
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Page(s) | 167 - 171 | |
DOI | https://doi.org/10.1051/eas/1258027 | |
Published online | 13 February 2013 |
C. Stehlé, C. Joblin and L. d’Hendecourt (eds)
EAS Publications Series, 58 (2012) 167-171
Numerical simulations of Z-Pinch experiments to create supersonic differentially-rotating plasma flows
Imperial College, Blackett
Laboratory, SW7
2BW London,
UK
In the context of high energy density laboratory astrophysics, we aim to produce and study a rotating plasma relevant to accretion discs physics. We devised an experimental setup based on a modified cylindrical wire array and we studied it numerically with the three-dimensional, resistive magneto-hydrodynamic code GORGON. The simulations show that a rotating plasma cylinder is formed, with typical rotation velocity ~35 km/s and Mach number ~5. In addition, the plasma ring is differentially rotating and strongly radiatively cooled. The introduction of external magnetic fields is discussed.
© The Author(s) 2013