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Experimental studies of supersonic radiatively cooled plasma jets

Published online by Cambridge University Press:  13 February 2013

S.V. Lebedev
Affiliation:
Imperial College London, London, UK
F. Suzuki-Vidal
Affiliation:
Imperial College London, London, UK
M. Bocchi
Affiliation:
Imperial College London, London, UK
G.F. Swadling
Affiliation:
Imperial College London, London, UK
G. Burdiak
Affiliation:
Imperial College London, London, UK
S.N. Bland
Affiliation:
Imperial College London, London, UK
P. de Grouchy
Affiliation:
Imperial College London, London, UK
A.J. Harvey-Thompson
Affiliation:
Imperial College London, London, UK
E. Khoory
Affiliation:
Imperial College London, London, UK
S. Patankar
Affiliation:
Imperial College London, London, UK
L. Pickworth
Affiliation:
Imperial College London, London, UK
J. Skidmore
Affiliation:
Imperial College London, London, UK
R. Smith
Affiliation:
Imperial College London, London, UK
J.P. Chittenden
Affiliation:
Imperial College London, London, UK
M. Krishnan
Affiliation:
Alameda Applied Sciences Corporation, San Leandro, CA, USA
R. Madden
Affiliation:
Alameda Applied Sciences Corporation, San Leandro, CA, USA
K. Wilson-Elliot
Affiliation:
Alameda Applied Sciences Corporation, San Leandro, CA, USA
A. Ciardi
Affiliation:
LERMA, Observatoire de Paris, École Normale Supérieure, Université Pierre et Marie Curie, CNRS, France
A. Frank
Affiliation:
University of Rochester, Rochester, NY, USA

Abstract

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Properties of radiatively cooled supersonic plasma jets formed by ablation of thin Al foils driven by 1.4 MA, 250 ns current pulse are presented. The jets are highly collimated with half-opening angles of ~2°. Measurements of the flow velocity (~60 km/s) and plasma temperature (~15 eV) in the jet with Thomson scattering diagnostic give internal Mach number of M ~ 3, suggesting additional collimation of the jet by toroidal magnetic fields.

Type
Research Article
Copyright
© The Author(s) 2013

References

Références

Bellan, P.M., You, S., & Hsu, S.C., 2005, Ap&SS, 298 , 203
Ciardi, A., Lebedev, S.V., Frank, A., et al., 2007, Phys. Plasmas, 14 , 056501 CrossRef
Ciardi, A., Lebedev, S.V., Frank, A., et al., 2009, ApJ, 691 , L147 CrossRef
Foster, J.M., Wilde, B.H., Rosen, P.A., et al., 2005, ApJ, 634 , L77 CrossRef
Gourdain, P.-A., Blesener, I.C., Greenly, J.B., et al., 2010, Phys. Plasmas, 17 , 012706 CrossRef
Harvey-Thompson, A.J., Lebedev, S.V., et al., 2012, Phys. Rev. Lett., 106 , 205002 CrossRef
Lebedev, S.V., Ciardi, A., Ampleford, D.J., et al., 2005, MNRAS, 361 , 97 CrossRef
Loupias, B., Koenig, M., Falize, E., et al., 2007, Phys. Rev. Lett., 99 , 265001 CrossRef
Remington, B.A., Drake, R.P., & Ryutov, D.D., 2006, Rev. Mod. Phys., 78 , 755 CrossRef
Suzuki-Vidal, , Lebedev, S.V., et al., 2010, Phys. Plasmas, 17 , 112708 CrossRef
Suzuki-Vidal, F., Bocchi, M., Lebedev, S.V., et al., 2012, Phys. Plasmas, 19 , 022708 CrossRef