Magnetized Plasma Relaxation in the Presence of a Mass-Dependent Potential
POSTER
Abstract
The relaxation of a multiple-species magnetized plasma under the influence of an external potential is characterized by several distinct timescales during which different physical effects dominate.1 In appropriate parameter regimes, these timescales can be substantially separated from one another. The resulting behavior is notable both because of how differently it affects different ion species and because of how different it is from the relaxation behavior of other materials, such as neutral gas.2,3 We discuss these problems analytically and simulate them numerically using a multiple-fluid model, including the behaviors of different density and temperature distributions.
[1] E. J. Kolmes, I. E. Ochs, and N. J. Fisch, Phys. Plasmas 25, 042703 (2018).
[2] V. I. Geyko and N. J. Fisch, Phys. Rev. Lett. 110, 150604 (2013).
[3] V. I. Geyko and N. J. Fisch, Phys. Rev. E 94, 042113 (2016).
Presenters
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Elijah J Kolmes
Princeton Univ, Princeton Plasma Physics Laboratory, Princeton Univ, PPPL
Authors
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Elijah J Kolmes
Princeton Univ, Princeton Plasma Physics Laboratory, Princeton Univ, PPPL
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Mikhail E Mlodik
Princeton University, Princeton Plasma Physics Lab, Princeton Univ, PPPL
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Ian E Ochs
Princeton Univ, Princeton Plasma Physics Laboratory, Princeton Univ, PPPL, Princeton Univ
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Nathaniel J Fisch
Princeton Plasma Phys Lab, Princeton Univ, Princeton Univ/PPPL, Princeton Plasma Phys Lab, Department of Astrophysical Science, Princeton University, Princeton Plasma Phys Lab, Princeton University, Princeton Univ, PPPL, Princeton Plasma Physics Laboratory, Princeton Plasma Phys Lab, Department of Astrophysical Sciences, Princeton University, USA, Princeton Plasma Physics Lab, Princeton University