Modelling the Main ionospheric trough using the Electron Density Assimilative Model (EDAM) with assimilated GPS TEC

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Modelling the Main ionospheric trough using the Electron Density Assimilative Model (EDAM) with assimilated GPS TEC. / Parker, James; Pryse, Sian; Jackson-Booth, Natasha; Buckland, Rachel.

In: Annales Geophysicae, Vol. 36, 25.01.2018, p. 125-138.

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Parker, James ; Pryse, Sian ; Jackson-Booth, Natasha ; Buckland, Rachel. / Modelling the Main ionospheric trough using the Electron Density Assimilative Model (EDAM) with assimilated GPS TEC. In: Annales Geophysicae. 2018 ; Vol. 36. pp. 125-138.

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@article{c55ef6f4833f4b43a17fccde44dfc40a,
title = "Modelling the Main ionospheric trough using the Electron Density Assimilative Model (EDAM) with assimilated GPS TEC",
abstract = "The main ionospheric trough is a large-scale spatial depletion in the electron density distribution at the interface between the high- and mid-latitude ionosphere. In western Europe it appears in early evening, progresses equatorward during the night, and retreats rapidly poleward at dawn. It exhibits substantial day-to-day variability and under conditions of increased geomagnetic activity it moves progressively to lower latitudes. Steep gradients on the trough-walls on either side of the trough minimum, and their variability, can cause problems for radio applications. Numerous studies have sought to characterize and quantify the trough behaviour. The Electron Density Assimilative Model (EDAM) models the ionosphere on a global scale. It assimilates observations into a background ionosphere, the International Reference Ionosphere 2007 (IRI2007), to provide a full 3-D representation of the ionospheric plasma distribution at specified times and days. This current investigation studied the capability of EDAM to model the ionosphere in the region of the main trough. Total electron content (TEC) measurements from 46 GPS stations in western Europe from September to December 2002 were assimilated into EDAM to provide a model of the ionosphere in the trough region. Vertical electron content profiles through the model revealed the trough and the detail of its structure. Statistical results are presented of the latitude of the trough minimum, TEC at the minimum and of other defined parameters that characterize the trough structure. The results are compared with previous observations made with the Navy Ionospheric Monitoring System (NIMS), and reveal the potential of EDAM to model the large-scale structure of the ionosphere",
author = "James Parker and Sian Pryse and Natasha Jackson-Booth and Rachel Buckland",
year = "2018",
month = jan,
day = "25",
doi = "10.5194/angeo-36-125-2018",
language = "English",
volume = "36",
pages = "125--138",
journal = "Annales Geophysicae",
issn = "0992-7689",
publisher = "COPERNICUS GESELLSCHAFT MBH",

}

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TY - JOUR

T1 - Modelling the Main ionospheric trough using the Electron Density Assimilative Model (EDAM) with assimilated GPS TEC

AU - Parker, James

AU - Pryse, Sian

AU - Jackson-Booth, Natasha

AU - Buckland, Rachel

PY - 2018/1/25

Y1 - 2018/1/25

N2 - The main ionospheric trough is a large-scale spatial depletion in the electron density distribution at the interface between the high- and mid-latitude ionosphere. In western Europe it appears in early evening, progresses equatorward during the night, and retreats rapidly poleward at dawn. It exhibits substantial day-to-day variability and under conditions of increased geomagnetic activity it moves progressively to lower latitudes. Steep gradients on the trough-walls on either side of the trough minimum, and their variability, can cause problems for radio applications. Numerous studies have sought to characterize and quantify the trough behaviour. The Electron Density Assimilative Model (EDAM) models the ionosphere on a global scale. It assimilates observations into a background ionosphere, the International Reference Ionosphere 2007 (IRI2007), to provide a full 3-D representation of the ionospheric plasma distribution at specified times and days. This current investigation studied the capability of EDAM to model the ionosphere in the region of the main trough. Total electron content (TEC) measurements from 46 GPS stations in western Europe from September to December 2002 were assimilated into EDAM to provide a model of the ionosphere in the trough region. Vertical electron content profiles through the model revealed the trough and the detail of its structure. Statistical results are presented of the latitude of the trough minimum, TEC at the minimum and of other defined parameters that characterize the trough structure. The results are compared with previous observations made with the Navy Ionospheric Monitoring System (NIMS), and reveal the potential of EDAM to model the large-scale structure of the ionosphere

AB - The main ionospheric trough is a large-scale spatial depletion in the electron density distribution at the interface between the high- and mid-latitude ionosphere. In western Europe it appears in early evening, progresses equatorward during the night, and retreats rapidly poleward at dawn. It exhibits substantial day-to-day variability and under conditions of increased geomagnetic activity it moves progressively to lower latitudes. Steep gradients on the trough-walls on either side of the trough minimum, and their variability, can cause problems for radio applications. Numerous studies have sought to characterize and quantify the trough behaviour. The Electron Density Assimilative Model (EDAM) models the ionosphere on a global scale. It assimilates observations into a background ionosphere, the International Reference Ionosphere 2007 (IRI2007), to provide a full 3-D representation of the ionospheric plasma distribution at specified times and days. This current investigation studied the capability of EDAM to model the ionosphere in the region of the main trough. Total electron content (TEC) measurements from 46 GPS stations in western Europe from September to December 2002 were assimilated into EDAM to provide a model of the ionosphere in the trough region. Vertical electron content profiles through the model revealed the trough and the detail of its structure. Statistical results are presented of the latitude of the trough minimum, TEC at the minimum and of other defined parameters that characterize the trough structure. The results are compared with previous observations made with the Navy Ionospheric Monitoring System (NIMS), and reveal the potential of EDAM to model the large-scale structure of the ionosphere

U2 - 10.5194/angeo-36-125-2018

DO - 10.5194/angeo-36-125-2018

M3 - Article

VL - 36

SP - 125

EP - 138

JO - Annales Geophysicae

JF - Annales Geophysicae

SN - 0992-7689

ER -

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