Estimation of the characteristic energy of electron precipitation

Data from simultaneous observations (on 13 February 1996, 9 November 1998, and 12 February 1999) with the IRIS, DASI and EISCAT systems are employed in the study of the energy distribution of the electron precipitation during substorm activity. The estimation of the characteristic energy of the elec...

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Published in:Annales Geophysicae
Main Authors: Pozo, C. F., Kosch, M. J., Honary, F.
Format: Text
Language:English
Published: 2018
Subjects:
Tromsø
EISCAT
Online Access:https://doi.org/10.5194/angeo-20-1349-2002
https://angeo.copernicus.org/articles/20/1349/2002/
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spelling ftcopernicus:oai:publications.copernicus.org:angeo34990 2023-05-15T16:04:35+02:00 Estimation of the characteristic energy of electron precipitation Pozo, C. F. Kosch, M. J. Honary, F. 2018-09-27 application/pdf https://doi.org/10.5194/angeo-20-1349-2002 https://angeo.copernicus.org/articles/20/1349/2002/ eng eng doi:10.5194/angeo-20-1349-2002 https://angeo.copernicus.org/articles/20/1349/2002/ eISSN: 1432-0576 Text 2018 ftcopernicus https://doi.org/10.5194/angeo-20-1349-2002 2020-07-20T16:27:49Z Data from simultaneous observations (on 13 February 1996, 9 November 1998, and 12 February 1999) with the IRIS, DASI and EISCAT systems are employed in the study of the energy distribution of the electron precipitation during substorm activity. The estimation of the characteristic energy of the electron precipitation over the common field of view of IRIS and DASI is discussed. In particular, we look closely at the physical basis of the correspondence between the characteristic energy, the flux-averaged energy, as defined below, and the logarithm of the ratio of the green-light intensity to the square of absorption. This study expands and corrects results presented in the paper by Kosch et al. (2001). It is noticed, moreover, that acceleration associated with diffusion processes in the magnetosphere long before precipitation may be controlling the shape of the energy spectrum. We propose and test a "mixed" distribution for the energy-flux spectrum, exponential at the lower energies and Maxwellian or modified power-law at the higher energies, with a threshold energy separating these two regimes. The energy-flux spectrum at Tromsø, in the 1–320 keV range, is derived from EISCAT electron density profiles in the 70–140 km altitude range and is applied in the "calibration" of the optical intensity and absorption distributions, in order to extrapolate the flux and characteristic energy maps. Key words. Ionosphere (auroral ionosphere; particle precipitation; particle acceleration) Text EISCAT Tromsø Copernicus Publications: E-Journals Tromsø Annales Geophysicae 20 9 1349 1359
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description Data from simultaneous observations (on 13 February 1996, 9 November 1998, and 12 February 1999) with the IRIS, DASI and EISCAT systems are employed in the study of the energy distribution of the electron precipitation during substorm activity. The estimation of the characteristic energy of the electron precipitation over the common field of view of IRIS and DASI is discussed. In particular, we look closely at the physical basis of the correspondence between the characteristic energy, the flux-averaged energy, as defined below, and the logarithm of the ratio of the green-light intensity to the square of absorption. This study expands and corrects results presented in the paper by Kosch et al. (2001). It is noticed, moreover, that acceleration associated with diffusion processes in the magnetosphere long before precipitation may be controlling the shape of the energy spectrum. We propose and test a "mixed" distribution for the energy-flux spectrum, exponential at the lower energies and Maxwellian or modified power-law at the higher energies, with a threshold energy separating these two regimes. The energy-flux spectrum at Tromsø, in the 1–320 keV range, is derived from EISCAT electron density profiles in the 70–140 km altitude range and is applied in the "calibration" of the optical intensity and absorption distributions, in order to extrapolate the flux and characteristic energy maps. Key words. Ionosphere (auroral ionosphere; particle precipitation; particle acceleration)
format Text
author Pozo, C. F.
Kosch, M. J.
Honary, F.
spellingShingle Pozo, C. F.
Kosch, M. J.
Honary, F.
Estimation of the characteristic energy of electron precipitation
author_facet Pozo, C. F.
Kosch, M. J.
Honary, F.
author_sort Pozo, C. F.
title Estimation of the characteristic energy of electron precipitation
title_short Estimation of the characteristic energy of electron precipitation
title_full Estimation of the characteristic energy of electron precipitation
title_fullStr Estimation of the characteristic energy of electron precipitation
title_full_unstemmed Estimation of the characteristic energy of electron precipitation
title_sort estimation of the characteristic energy of electron precipitation
publishDate 2018
url https://doi.org/10.5194/angeo-20-1349-2002
https://angeo.copernicus.org/articles/20/1349/2002/
geographic Tromsø
geographic_facet Tromsø
genre EISCAT
Tromsø
genre_facet EISCAT
Tromsø
op_source eISSN: 1432-0576
op_relation doi:10.5194/angeo-20-1349-2002
https://angeo.copernicus.org/articles/20/1349/2002/
op_doi https://doi.org/10.5194/angeo-20-1349-2002
container_title Annales Geophysicae
container_volume 20
container_issue 9
container_start_page 1349
op_container_end_page 1359
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