197247
20180128044927.0
POST_TALK
Reduced Electron Model with Accurate Trapping Effects for Non-Linear Ion Accoustic Waves
2013
2013
Posters
Ion Accoustic Wave (IAW) dynamics are usually simulated assuming an isothermal Boltzmann ﬂuid response of the electrons. It has been shown that results from the Boltzmann model may signiﬁcantly diﬀer from cor- responding ones obtained considering the fully kinetic electron dynamics, in particular wrt. the non-linear instability mechanisms of ﬁnite amplitude IAWs [1]. For ZTe /Ti 10 (Z the ionization degree and Te/i the electron/ion temperature), the positive contribution from trapped electrons to the non- linear kinetic frequency shift of IAWs in fact dominates over the negative one from trapped ions [2]. But carrying out simulations over IAW time scales while evolving fully kinetic electrons is a multi-scale computation and thus numerically very costly. For a spatially one-dimensional system, we shall present the implementation of an improved reduced electron model, the so- called adiabatic model, based on the adiabatic invariance of the phase space action u dx, [(x, u) the electron (position, velocity) in the wave frame, the integral being taken over a transit/bounce period for passing/trapped parti- cles] [3]. Simulations obtained with this adiabatic model, which only need to resolve the slow IAW time scale, are successfully compared to fully kinetic ones, in particular for computing non-linear frequency shifts of IAWs over diﬀerent ZTe /Ti regimes resulting from both electron and ion trapping. [1] C. Riconda, A. Heron, D. Pesme, S. H¨ller, V. T. Tikhonchuk, and F. Detering, Phys. Rev. Lett. 94, 055003 (2005). [2] R. Berger, S. Brunner, T. Chapmann, L. Divol, C. H. Still, and E. J. Valeo, Phys. Plasmas 20, 032107 (2013). [3] R. L. Dewar, Phys. Fluids 15, 712 (1972).
Brunner, Stephan
Delacrétaz, Luca
Berger, Richard
Banks, Jeff
Chapman, Tom
Hittinger, Jeff
Winjum, Ben
23rd International Conference on Numerical Simulations of Plasmas
Beijing, China
September 2013
INTERNAL
PUBLIC
n/a
https://infoscience.epfl.ch/record/197247/files/poster_ICNSP13.pdf
CRPP
SPC
252028
oai:infoscience.tind.io:197247
poster
SB
100615
100615
EPFL-POSTER-197247
EPFL
POSTER