Day-by-day modelling of the ionospheric F2-layer for year 2002
Day-by-day modelling of the ionospheric F2-layer for year 2002
The thermosphere–ionosphere–mesosphere-electrodynamics general circulation model (TIME-GCM) has been run for the year 2002. Its version 1.2 features include day-by-day input of solar irradiance, geomagnetic energy input parameterized by the 3-h Kp index, and global lower boundary conditions from the National Centres for Environmental Prediction (NCEP) data. In addition, it includes tidal forcing from the global-scale wave model (GSWM) and parameterized gravity waves from below.
The computed day-by-day values of noon peak electron density NmF2 agree well with ionosonde data for five northern sites and two southern mid-latitude sites, and closely follow the day-by-day modelled concentration ratio of atomic oxygen to molecular nitrogen. Seasonal and hemispheric patterns appear in the model with some, though not full, success. The model's day-to-day patterns show an impressive degree of variability, with simulations of total variability both above and below those observed.
Ionospheric modelling, General circulation models, model-data comparisons, f-layer morphology
848-856
Rishbeth, H.
fb69f152-f92f-4579-95b2-532898a077d1
Mendillo, M.
0b4e45c2-16ab-4130-aace-eaf6e3f6b561
Wroten, J.
8a2dd829-c3b8-48f1-94ea-3131b45a5f69
Roble, R.G.
f48dfbd2-3628-4a69-8d0c-d2caf889b9ab
June 2009
Rishbeth, H.
fb69f152-f92f-4579-95b2-532898a077d1
Mendillo, M.
0b4e45c2-16ab-4130-aace-eaf6e3f6b561
Wroten, J.
8a2dd829-c3b8-48f1-94ea-3131b45a5f69
Roble, R.G.
f48dfbd2-3628-4a69-8d0c-d2caf889b9ab
Rishbeth, H., Mendillo, M., Wroten, J. and Roble, R.G.
(2009)
Day-by-day modelling of the ionospheric F2-layer for year 2002.
Journal of Atmospheric and Solar-Terrestrial Physics, 71 (8-9), .
(doi:10.1016/j.jastp.2009.03.022).
Abstract
The thermosphere–ionosphere–mesosphere-electrodynamics general circulation model (TIME-GCM) has been run for the year 2002. Its version 1.2 features include day-by-day input of solar irradiance, geomagnetic energy input parameterized by the 3-h Kp index, and global lower boundary conditions from the National Centres for Environmental Prediction (NCEP) data. In addition, it includes tidal forcing from the global-scale wave model (GSWM) and parameterized gravity waves from below.
The computed day-by-day values of noon peak electron density NmF2 agree well with ionosonde data for five northern sites and two southern mid-latitude sites, and closely follow the day-by-day modelled concentration ratio of atomic oxygen to molecular nitrogen. Seasonal and hemispheric patterns appear in the model with some, though not full, success. The model's day-to-day patterns show an impressive degree of variability, with simulations of total variability both above and below those observed.
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Published date: June 2009
Keywords:
Ionospheric modelling, General circulation models, model-data comparisons, f-layer morphology
Identifiers
Local EPrints ID: 148119
URI: http://eprints.soton.ac.uk/id/eprint/148119
ISSN: 1364-6826
PURE UUID: 60555e67-3cba-44b0-b9d6-3d14cfc181fd
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Date deposited: 27 Apr 2010 11:03
Last modified: 14 Mar 2024 01:01
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Contributors
Author:
H. Rishbeth
Author:
M. Mendillo
Author:
J. Wroten
Author:
R.G. Roble
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