Strong reduction of nonlocal electron heat transport in magnetized laser produced plasma

Laurent Divol; D.H. Froula; J.S. Ross; P. Davis; B.B. Pollock; M.J. Edwards; R.P.J. Town; D. Price; S.H. Glenzer; A.A. Offenberger; A.N. James; G.R. Tynan

Strong reduction of nonlocal electron heat transport in magnetized laser produced plasma

ORAL

Abstract

We present a direct measurement of the reduction of nonlocal heat transport in laser-produced plasma by applying large external magnetic fields ($>$ 10 T). Imaging Thomson scattering measurements of the electron temperature profile show confinement of the heat wave transverse to a high-power laser beam resulting in strong local heating. The electron temperature increases from 200 eV to 800 eV when a 12 Tesla magnetic field is applied. We find agreement with hydrodynamic modeling (using LASNEX) when including a magnetic field model that self-consistently evolves the fields in the plasma.

^*This work was performed under the auspices of the U.S. Department of Energy by the Lawrence Livermore Nation Laboratory under Contract No. W-7405-ENG-48. UCRL-ABS-222760.

Nov. 3, 2006, 12:06 PM – Nov. 3, 2006, 12:18 PM

Authors

Laurent Divol
- Lawrence Livermore National Lab
D.H. Froula
J.S. Ross
P. Davis
B.B. Pollock
M.J. Edwards
R.P.J. Town
D. Price
S.H. Glenzer
- LLNL
A.A. Offenberger
- U. Alberta
A.N. James
G.R. Tynan
- UCSD