Journal ArticleDOI
An observed relation between magnetic field aligned electric fields and downward electron energy fluxes in the vicinity of auroral forms
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TLDR
In this paper, the authors used electron observations in the vicinity of, and over, auroral forms obtained from three rocket flights, and found that the net downward electron energy flux generally varied as Vµ, where V is the magnetic-field-aligned electric potential difference inferred from the peak in the observed energy spectra of precipitating electrons.Abstract:
Using electron observations in the vicinity of, and over, auroral forms obtained from three rocket flights, we have found that the net downward electron energy flux generally varied as V², where V is the magnetic-field-aligned electric potential difference inferred from the peak in the observed energy spectra of precipitating electrons. We show that this relation implies that V is proportional to the net downward number flux of electrons from the magnetosphere to the auroral ionosphere and thus that increases in V and increases in the net downward number flux of electrons are equally responsible for the enhanced electron energy deposition responsible for auroral forms. This also indicates a direct physical connection may exist between V and the net downward electron number flux.read more
Citations
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Origin of the main auroral oval in Jupiter's coupled magnetosphere–ionosphere system
TL;DR: In this article, a simple empirical model of the field and flow in the middle magnetosphere is used to estimate the field-aligned currents flowing into and out of the equatorial current sheet associated with the breakdown of corotation.
Journal ArticleDOI
Generation of large-scale regions of auroral currents, electric potentials, and precipitation by the divergence of the convection electric field
TL;DR: In this article, it was shown that discontinuities in the magnetospheric convection electric field E with ▽ · E < 0 can generate large-scale regions (of the order of 100 km in width) of magnetic fieldaligned currents with associated field-aligned electric potential differences and electron precipitation.
Journal ArticleDOI
Dynamics of magnetosphere-ionosphere coupling including turbulent transport
Robert L. Lysak,Christian T. Dum +1 more
TL;DR: In this paper, the dynamics of magnetosphere-ionosphere coupling were investigated by means of a two-dimensional two-fluid MHD model including anomalous resistivity, and the system evolved toward an electrostatic structure, with the perpendicular electric field having a shorter scale than the field-aligned current.
Journal ArticleDOI
The Jovian auroral oval
TL;DR: A simplified model of the upward Birkeland current was proposed in this paper, based on the assumption of a constant, uniform plasma outflow in a spin-aligned dipole magnetic field.
Journal ArticleDOI
Global simulation of the Geospace Environment Modeling substorm challenge event
Joachim Raeder,Robert L. McPherron,L. A. Frank,Susumu Kokubun,Gang Lu,Toshifumi Mukai,W. R. Paterson,John B. Sigwarth,Howard J. Singer,James A. Slavin +9 more
TL;DR: In this article, the authors used a global model of Earth's magnetosphere and ionosphere to simulate the Geospace Environment Modeling (GEM) substorm challenge event of November 24, 1996, and compared their results to International Monitor for Auroral Geomagnetic Effects (IMAGE) ground magnetometer data, assimilative mapping of ionospheric electrodynamics (AMIE) polar cap potential and field aligned current patterns, Polar Visible Imaging System (VIS) estimates of the polar cap magnetic flux, GOES 8 geosynchronous magnetometer Data, IMP 8 magnet
References
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Journal ArticleDOI
Observations of paired electrostatic shocks in the polar magnetosphere
F. S. Mozer,C. W. Carlson,Mary K. Hudson,Roy B. Torbert,B. Parady,J. Yatteau,Michael C. Kelley +6 more
TL;DR: In this article, a polar orbiting satellite was used to measure spatially confined regions of extremely large electric fields in the auroral zone at altitudes below 8000 km, which are identified as paired electrostatic shocks which are associated with electrostatic ion cyclotron wave turbulence.
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Satellite observations of an ionospheric acceleration mechanism
TL;DR: A satellite-borne ion mass spectrometer experiment has detected fluxes of O/sup+/ and H/sup +/ ions flowing up out of the ionosphere in the auroral and polar regions as discussed by the authors.
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Precipitating electron fluxes formed by a magnetic field aligned potential difference
TL;DR: In this paper, a model is developed in which a magnetic field aligned potential difference is assumed to accelerate electrons downward into the atmosphere, and the upgoing backscattered electrons produced by this electron beam may process insufficient kinetic energy to overcome the hypothetical potential difference.
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A new model for the interaction of auroral electrons with the atmosphere: Spectral degradation, backscatter, optical emission, and ionization
TL;DR: In this paper, a new computational model has been created to describe the interaction of auroral electrons with the atmosphere, which is used to compute energy spectrums, ionization rates, backscatter ratios, and optical emissions associated with different incident electron spectrums.
Journal ArticleDOI
Signatures of electric fields from high and low altitude farticles distributions
Paul F. Mizera,Joseph F. Fennell +1 more
TL;DR: In this paper, high altitude measurements of high altitude ions and electrons at auroral energies are used to provide evidence of parallel electric field acceleration over the dusk to midnight auroral regions for both the north and south hemispheres.