Formation of Electron Holes and Particle Energization during Magnetic Reconnection

Formation of Electron Holes and Particle Energization during Magnetic Reconnection

Three-dimensional particle simulations of magnetic reconnection reveal the development of turbulence driven by intense electron beams that form near the magnetic x-line and separatrices. The turbulence collapses into localized three-dimensional nonlinear structures in which the electron density is d...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2003-02, Vol.299 (5608), p.873-877
Hauptverfasser: Drake, J. F., Swisdak, M., Cattell, C., Shay, M. A., Rogers, B. N., Zeiler, A.
Format: Artikel
Sprache:eng
Schlagworte:
Artificial satellites
Earth, ocean, space
Electric current
Electric fields
Electrical resistivity
Electron holes
Electrons
Energy
Exact sciences and technology
External geophysics
Geomagnetic observations and data
Ions
Magnetic fields
Magnetopause
Magnetosphere
Motion
Observations
Particle physics
Physics of the magnetosphere
Scientific Concepts
Speed
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Zusammenfassung:Three-dimensional particle simulations of magnetic reconnection reveal the development of turbulence driven by intense electron beams that form near the magnetic x-line and separatrices. The turbulence collapses into localized three-dimensional nonlinear structures in which the electron density is depleted. The predicted structure of these electron holes compares favorably with satellite observations at Earth's magnetopause. The birth and death of these electron holes and their associated intense electric fields lead to strong electron scattering and energization, whose understanding is critical to explaining why magnetic explosions in space release energy so quickly and produce such a large number of energetic electrons.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1080333