Using IRI and GSM TIP model results as environment for HF radio wave propagation model during the geomagnetic storm occurred on September 26-29, 2011
Abstract
This paper analyses the geomagnetic storm on September 26–29, 2011. We compare the calculation results obtained using the Global Self-consistent Model of the Thermosphere, Ionosphere and Protonosphere (GSM TIP) and IRI-2012 (Bilitza et al., 2014) model with ground-based ionosonde data of stations at different latitudes and longitudes. We examined physical mechanisms responsible for the formation of ionospheric effects during the main phase of geomagnetic storm that occurred at the rising phase of the 24th solar cycle. We used numerical results obtained from IRI-2012 and GSM TIP models as propagation environment for HF signals from an equatorial transmitter during quiet and disturbed conditions. We used the model of HF radio wave propagation developed in I. Kant Baltic Federal University (BFU) that is based on the geometrical optics approximation. We compared the obtained radio paths in quiet conditions and during the main and recovery storm phases and evaluated radio wave attenuation in different media models.
Description
Date
2015-05-16
Keywords
HF radio wave propagation modelcIRI model , First principles model , Ionosonde , F3 layer , Geomagnetic storm
Citation
Kotova, D. S., Klimenko, M. V., Klimenko, V. V., Zakharov, V. E., Ratovsky, K. G., Nosikov, I. A., & Zhao, B. (2015). Using IRI and GSM TIP model results as environment for HF radio wave propagation model during the geomagnetic storm occurred on September 26-29, 2011. Advances in Space Research, 56 (9), 2012-2029. https://doi.org/10.1016/j.asr.2015.05.009
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Publisher
Elsevier