Hybrid magnetohydrodynamic–kinetic model of standing shear Alfvén waves

PETER A. DAMIANO; R. D. SYDORA; J. C. SAMSON

doi:10.1017/S0022377803002216

Abstract

We have developed a hybrid magnetohydrodynamics (MHD) –kinetic box model valid for standing shear Alfvén waves using the cold plasma MHD equations coupled to a system of kinetic electrons. The guiding centre equations are used for the motion of the electrons and the system is closed via an expression for the field-aligned electric field in terms of the perpendicular electric field and moments of the electron distribution function. The perpendicular electric fields are derived from the ideal MHD approximation. We outline the basic model equations and method of solution. Simulations are then presented comparing the hybrid model results with a cold plasma MHD model. Landau damping is shown to heavily damp the standing shear Alfvén wave in the hybrid simulations when $v_{th} \ge V_{A}$. The damping rate is shown to be in good agreement with the theoretical rate calculated for the model parameters.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Damiano, P. A. Wright, A. N. Sydora, R. D. and Samson, J. C. 2005. Hybrid magnetohydrodynamic-kinetic electron closure methods and shear Alfvén waves in nonuniform plasmas. Physics of Plasmas, Vol. 12, Issue. 4, p. 042105.

Damiano, P. A. and Wright, A. N. 2005. Two‐dimensional hybrid MHD‐kinetic electron simulations of an Alfvén wave pulse. Journal of Geophysical Research: Space Physics, Vol. 110, Issue. A1,

Vedin, Jörgen and Rönnmark, Kjell 2006. Particle‐fluid simulation of the auroral current circuit. Journal of Geophysical Research: Space Physics, Vol. 111, Issue. A12,

Watt, C. E. J. and Rankin, R. 2007. Electron acceleration due to inertial Alfvén waves in a non‐Maxwellian plasma. Journal of Geophysical Research: Space Physics, Vol. 112, Issue. A4,

Damiano, P. A. Wright, A. N. Sydora, R. D. and Samson, J. C. 2007. Energy dissipation via electron energization in standing shear Alfvén waves. Physics of Plasmas, Vol. 14, Issue. 6,

Scoffield, H.C. Yeoman, T.K. Wright, D.M. Milan, S.E. Wright, A.N. and Strangeway, R.J. 2007. An investigation of the field-aligned currents associated with a large-scale ULF wave in the morning sector. Planetary and Space Science, Vol. 55, Issue. 6, p. 770.

Watt, C E J and Rankin, R 2008. DK-1D: a drift-kinetic simulation tool for modelling the shear Alfvén wave and its interaction with collisionless plasma. Plasma Physics and Controlled Fusion, Vol. 50, Issue. 7, p. 074008.

Damiano, P. A. and Wright, A. N. 2008. Electron thermal effects in standing shear Alfvén waves. Journal of Geophysical Research: Space Physics, Vol. 113, Issue. A9,

Watt, C. E. J. and Rankin, R. 2010. Do magnetospheric shear Alfvén waves generate sufficient electron energy flux to power the aurora?. Journal of Geophysical Research: Space Physics, Vol. 115, Issue. A7,

Watt, C.E.J. and Rankin, R. 2013. Auroral Phenomenology and Magnetospheric Processes: Earth And Other Planets. p. 251.

Damiano, P. A. Johnson, J. R. and Chaston, C. C. 2016. Ion gyroradius effects on particle trapping in kinetic Alfvén waves along auroral field lines. Journal of Geophysical Research: Space Physics, Vol. 121, Issue. 11,

Vshivkova, L. Dudnikova, G. and Vshivkov, K. 2016. Hybrid numerical model of shock waves in collisionless plasma. Vol. 1773, Issue. , p. 110017.

Vshivkova, Lyudmila and Dudnikova, Galina 2017. Numerical Analysis and Its Applications. Vol. 10187, Issue. , p. 737.

Damiano, P.A. Chaston, C.C. Hull, A.J. and Johnson, J.R. 2018. Electron Distributions in Kinetic Scale Field Line Resonances: A Comparison of Simulations and Observations. Geophysical Research Letters, Vol. 45, Issue. 12, p. 5826.

Damiano, P. A. Kim, E.‐H. Johnson, J. R. and Porazik, P. 2019. Electron Energization by Parallel Electric Fields in Poloidal Standing Waves. Journal of Geophysical Research: Space Physics, Vol. 124, Issue. 8, p. 6691.

Lysak, R. Echim, M. Karlsson, T. Marghitu, O. Rankin, R. Song, Y. and Watanabe, T.-H. 2020. Quiet, Discrete Auroral Arcs: Acceleration Mechanisms. Space Science Reviews, Vol. 216, Issue. 5,

Rankin, R. Gillies, D. M. and Degeling, A. W. 2021. On the Relationship Between Shear Alfvén Waves, Auroral Electron Acceleration, and Field Line Resonances. Space Science Reviews, Vol. 217, Issue. 4,

Article contents

Hybrid magnetohydrodynamic–kinetic model of standing shear Alfvén waves

Abstract

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Hybrid magnetohydrodynamic–kinetic model of standing shear Alfvén waves

Abstract

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests