Journal ArticleDOI
Validation of techniques for space based remote sensing of auroral precipitation and its ionospheric effects
Robert M. Robinson,R. R. Vondrak +1 more
TLDR
In this article, the authors used the detection of visible, ultraviolet and X-ray emissions produced by precipitating particles to understand the spatial distribution of auroral precipitation and its associated ionospheric effects.Abstract:
Knowledge of the spatial distribution of auroral precipitation and its associated ionospheric effects is important both to scientific studies of the Earth's environment and successful operation of defense and communication systems. Observations with the best spatial and temporal coverage are obtained through remote sensing from space-based platforms. Various techniques have been used, including the detection of visible, ultraviolet and X-ray emissions produced by the precipitating particles. Interpretation of the measurements is enabled through theoretical modeling of the interaction of precipitating particles with atmospheric constituents. A great variety of auroral precipitation exists, with each kind differing in the type and energy distribution of the particles, as well as in its spatial and temporal behavior. Viable remote sensing techniques must be able to distinguish at least the species of particle, the total energy flux, and the average energy. Methods based on visible, ultraviolet and X-ray emissions meet these requirements to varying degrees. These techniques and the associated space instrumentation have evolved in parallel over the last two decades. Each of the methods has been tested using simultaneous measurements made by space-based imaging systems and ground-based measurements made by radars and optical instruments. These experiments have been extremely helpful in evaluating the performance and practicality of the instruments and the results have been crucial in improving instrument design for future remote sensing platforms. The next decade will see continued development and test of remote sensing instruments and the measurements, in addition to providing important operational data, will be increasingly more critical in addressing a number of scientific problems in auroral and atmospheric physics.read more
Citations
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Journal ArticleDOI
Polar Cap Arcs: A Review
TL;DR: In this paper, both the observational and theoretical studies of polar cap arcs are reviewed, which are the arcs that occur in the polar cap or in the poleward regions of the auroral oval.
Journal ArticleDOI
Auroral electron distributions derived from combined UV and X‐ray emissions
Nikolai Østgaard,Johan Stadsnes,J. Bjordal,R. R. Vondrak,George K. Parks,Steven A. Cummer,D. L. Chenette,J. G. Pronko +7 more
TL;DR: In this paper, the results from the Polar Ionospheric X-ray Imaging Experiment and the Ultraviolet Imager on board the Polar satellite were combined to derive the electron energy distributions that reproduce the true electron spectra from 1 to 100 keV and that can be used to calculate the energy flux in the energy range from 100 eV to 100
Journal ArticleDOI
Global-scale electron precipitation features seen in UV and X rays during substorms
Nikolai Østgaard,Johan Stadsnes,J. Bjordal,Richard R. Vondrak,Steven A. Cummer,D. L. Chenette,George K. Parks,Mitchell J. Brittnacher,David L. McKenzie +8 more
TL;DR: In this article, the development of the electron precipitation during the different phases of magnetospheric substorms is examined and compared with ground-based observations and geosynchronous satellite data.
Journal ArticleDOI
Height-integrated conductivity in auroral substorms. 1. Data
Jesper Gjerloev,R. A. Hoffman +1 more
TL;DR: In this paper, the Hall and Pedersen conductivities were calculated from electron precipitation data obtained by the low altitude plasma instrument (LAPI) carried on DE 2 and the monoenergetic conductance model by Reiff [1984].
Journal ArticleDOI
Height‐integrated conductivity in auroral substorms: 2. Modeling
Jesper Gjerloev,R. A. Hoffman +1 more
TL;DR: In this article, Gjerloev et al. calculated the Hall conductance in the high-latitude part of the surge at 48 mho with a Hall to Pedersen ratio of 2.4 and showed that two channels of enhanced conductance are overlapping near midnight and are fairly separated in latitude.
References
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Book
The Atomic Nucleus
Robley D. Evans,Arthur Beiser +1 more
TL;DR: In this article, a few moments to read a book, even only few pages, is recommended, and a book is not obligation and force for everybody to read it even if they don't want to read.
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.
Journal ArticleDOI
Ultraviolet spectroscopy and remote sensing of the upper atmosphere
TL;DR: A review of the field of airglow analysis can be found in this article, where the basic processes leading to excitation of atomic and molecular energy states are discussed and the current status of knowledge of individual emission features seen in the air glow is examined for the purpose of selecting those species most useful as diagnostics of the state of the upper atmosphere and ionosphere.
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.