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Coupled Magnetosphere-Ionosphere-Thermosphere simulations for March equinox, June solstice and December solstice for solar maximum and minimum conditions
GB/NERC/BAS/PDC/00830

Summary

Abstract:
This dataset comprises the output from a series of eight simulations with the Coupled Magnetosphere-Ionosphere-Thermosphere (CMIT) model as used in the study by Cnossen and Foerster (2016).The first six simulations were run with observed solar radiative forcing, specified by F10.7 values, and observed solar wind conditions. In the last two simulations (dsol-lh and jsol-lh), the solar radiative forcing was artificially reduced by setting the F10.7 values to a constant low value of 80 solar flux units. The dsol-lh and jsol-lh are otherwise identical to the dsol-hh and jsol-mh simulations, respectively. Further details about the simulations and a brief description of the CMIT model are provided by Cnossen and Foerster (2015, in review). Wiltberger et al. (2004) and Wang et al. (2004, 2008) provide further details of the CMIT model. The CMIT simulations were performed on the Yellowstone high-performance computing facility (ark:/85065/d7wd3xhc) provided by the Computational and Information Systems Laboratory of the National Centre for Atmospheric Research, sponsored by the National Science Foundation.

Keywords:
CMIT, ionosphere, magnetosphere, solar radiation, solar winds, thermosphere

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Citation

Cnossen, I. (2015). Coupled Magnetosphere-Ionosphere-Thermosphere simulations for March equinox, June solstice and December solstice for solar maximum and minimum conditions: electric field, ion drift, and neutral wind results. Polar Data Centre; British Antarctic Survey, Natural Environment Research Council; Cambridge, CB3 0ET, UK. https://doi.org/10.5285/b604c641-9e4d-4fab-a638-103e38f146be

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