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Structure and Dynamics of Colliding Plasma Jets.

Authors :
C. K. Li
Ryutov, D. D.
S. X. Hu
Rosenberg, M. J.
Zylstra, A. B.
Séguin, F. H.
Frenje, J. A.
Casey, D. T.
Gatu Johnson, M.
Manuel, M. J.-E.
Rinderknecht, H. G.
Petrasso, R. D.
Amendt, P. A.
Park, H. S.
Remington, B. A.
Wilks, S. C.
Betti, R.
Froula, D. H.
Knauer, J. P.
Meyerhofer, D. D.
Source :
Physical Review Letters. 12/6/2013, Vol. 111 Issue 23, p235003-1-235003-5. 5p.
Publication Year :
2013

Abstract

Monoenergetic-proton radiographs of laser-generated, high-Mach-number plasma jets colliding at various angles shed light on the structures and dynamics of these collisions. The observations compare favorably with results from 2D hydrodynamic simulations of multistream plasma jets, and also with results from an analytic treatment of electron flow and magnetic field advection. In collisions of two noncollinear jets, the observed flow structure is similar to the analytic model's prediction of a characteristic feature with a narrow structure pointing in one direction and a much thicker one pointing in the opposite direction. Spontaneous magnetic fields, largely azimuthal around the colliding jets and generated by the well-known ∇Te × ∇ne Biermann battery effect near the periphery of the laser spots, are demonstrated to be "frozen in" the plasma (due to high magnetic Reynolds number ReM ∼ 5 X 104) and advected along the jet streamlines of the electron flow. These studies provide novel insight into the interactions and dynamics of colliding plasma jets. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00319007
Volume :
111
Issue :
23
Database :
Academic Search Index
Journal :
Physical Review Letters
Publication Type :
Academic Journal
Accession number :
93335342
Full Text :
https://doi.org/10.1103/PhysRevLett.111.235003