Journal ArticleDOI
A new model for the interaction of auroral electrons with the atmosphere: Spectral degradation, backscatter, optical emission, and ionization
TLDR
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.Abstract:
A new computational model has been created to describe the interaction of auroral electrons with the atmosphere. For electrons of energy greater than 500 eV, continuous energy losses and small angle deflections are combined in a Fokker-Planck diffusion equation that computes energy spectrums over all pitch angles throughout the atmosphere. These fluxes are then used to determine the rates of secondary electron and degraded (E < 500 eV) primary electron production at all heights. This information is used to compute upward and downward hemispherical fluxes in the energy range 0–500 eV, taking into account discrete energy losses, large angle scattering, and particle transport along magnetic field lines. The model has been used to compute energy spectrums, ionization rates, backscatter ratios, and optical emissions associated with different incident electron spectrums. For monoenergetic electrons of energy 2 keV and above the results obtained agree well with the work of Rees (1969) and Rees and Maeda (1973). At lower energies the effects of transport and elastic collisions become progressively more important, and the present results differ significantly both from the Rees and Maeda results and from those obtained from the ideas of energy degradation. Finally, spectrums typical of the nighttime auroral oval and daytime polar cusp are used to obtain the altitude dependent fluxes, ionization rates, and optical emissions.read more
Citations
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Journal ArticleDOI
A model of the high‐latitude ionospheric convection pattern
TL;DR: In this paper, a model for large-scale global convection characteristics of the high-latitude ionosphere has been constructed that allows the largescale Global Convection Model (GCM) to be used in F region chemical models.
Journal ArticleDOI
Electron temperatures in the F region of the ionosphere - Theory and observations
Robert W. Schunk,Andrew F. Nagy +1 more
TL;DR: The theory and observations relating to electron temperatures in the F region of the ionosphere are reviewed in this paper, and a discussion of the various attempts to compare measured and calculated F region electron temperatures.
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High-Latitude F-Region Irregularities: A Review and Synthesis
TL;DR: In this article, the authors synthesize a descriptive model of plasma structures in the high-latitude F layer that unifies most of the diverse and independent observations, including the formation of 1000 km-scale "patches" in the polar cap from solar-produced plasma that is transported poleward from lower latitudes; the reconfiguration of patches as they convect into the auroral region and become the latitudinally confined, but longitudinally extended, plasma density enhancements near the equatorward auroral boundary; and the production of localized enhancements and depletions
Journal ArticleDOI
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.
Journal ArticleDOI
On calculating ionospheric conductances from the flux and energy of precipitating electrons
TL;DR: Auroral zone conductances can be estimated from the energy flux and average energy of precipitating electrons Revised expressions are presented that relate height-integrated Hall and Pedersen conductance to the flux and energy of a Maxwellian as mentioned in this paper.
References
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Journal ArticleDOI
Auroral ionization and excitation by incident energetic electrons
TL;DR: In this paper, the luminosity profiles for the N 2 + 1 N.G. (0, 0) band are predicted for various energy distributions of auroral electrons in the energy range 0.4 to 300 keV.
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Photoelectron fluxes in the ionosphere
Andrew F. Nagy,Peter M. Banks +1 more
TL;DR: In this article, fluxes and energy spectra in ionosphere for predawn and sunlit atmospheres, taking into account elastic and inelastic collisions were analyzed. But the authors did not consider the effect of temperature variation.
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Measurements of Secondary‐Electron Spectra Produced by Electron Impact Ionization of a Number of Simple Gases
TL;DR: In this article, the authors measured the energy distribution and angular dependence of secondary electrons generated by the impact of 100−2000eV electrons on He, N2, and O2 and measured the shape of the spectra of all the gases, except Ar, Kr, and Xe.
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Lumineszenz-photometrische Messungen der Energieabsorption im Strahlungsfeld von Elektronenquellen Eindimensionaler Fall in Luft
TL;DR: In this article, the Energie-Absorption a (z) von Luft im Strahlungsfeld einer speziellen Elektronenquelle als Funktion der Eindringtiefe z gemessen (Tiefendosiskurven) was verwendet.