Faraday Rotation Response to Coronal Mass Ejection Structure

E. A. Jensen, P. P. Hick, M. M. Bisi, B. V. Jackson, J. Clover, T. Mulligan

Research output: Contribution to journalArticlepeer-review

21 Citations (SciVal)

Abstract

We present the results from modeling the coronal mass ejection (CME) properties that have an effect on the Faraday rotation (FR) signatures that may be measured with an imaging radio antenna array such as the Murchison Widefield Array (MWA). These include the magnetic flux rope orientation, handedness, magnetic-field magnitude, velocity, radius, expansion rate, electron density, and the presence of a shock/sheath region. We find that simultaneous multiple radio source observations (FR imaging) can be used to uniquely determine the orientation of the magnetic field in a CME, increase the advance warning time on the geoeffectiveness of a CME by an order of magnitude from the warning time possible from in-situ observations at L 1, and investigate the extent and structure of the shock/sheath region at the leading edge of fast CMEs. The magnetic field of the heliosphere is largely “invisible” with only a fraction of the interplanetary magnetic-field lines convecting past the Earth; remote sensing the heliospheric magnetic field through FR imaging from the MWA will advance solar physics investigations into CME evolution and dynamics.
Original languageEnglish
Pages (from-to)31-48
Number of pages18
JournalSolar Physics
Volume265
Issue number1-2
DOIs
Publication statusPublished - 01 Aug 2010

Keywords

  • Coronal mass ejections
  • Helicity, magnetic
  • Helicity, observations
  • Helicity, theory
  • Instrumental effects
  • Integrated Sun observations
  • Magnetic fields, corona
  • Magnetic fields, interplanetary
  • Magnetic fields, models
  • Polarization, radio
  • Radio scintillation
  • Rotation
  • Solar wind, disturbances
  • Solar wind, theory

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