We present the latest development of the Wave Perturbation-Global Ionosphere-Thermosphere Model (WP-GITM), a three- dimensional physics-based numerical model for seismic/tsunami-ionosphere coupling via atmospheric acoustic-gravity waves. WP-GITM was previously applied to simulate the ionospheric perturbations resulted from the epicentral crustal movement by assuming spherical acoustic-gravity waves originated from a point source, which was specified by the seismic measurement at a single location nearby the epicenter. In this work, we extend WP-GITM to include the effects of Rayleigh surface waves and adapt WP-GITM to utilize seismic measurements from more than one location in the attempt to capture the radiation pattern of the seismic source. We apply the new WP-GITM to model the near-field co-seismic ionospheric perturbations during the 16 September 2015 Illapel earthquake. The comparison between the simulated ionospheric total electron content perturbations and the GPS observations shows promising results.
Modeling the Near-field Ionospheric Disturbances During Earthquakes / Meng, Xing; Komjathy, Attila; Verkhoglyadova, Olga P.; Savastano, Giorgio; Crespi, Mattia; Ravanelli, Michela. - (2019), pp. 854-861. (Intervento presentato al convegno ION 2019 Pacific PNT Meeting tenutosi a Honolulu, Hawaii (USA)) [10.33012/2019.16844].
Modeling the Near-field Ionospheric Disturbances During Earthquakes
Savastano, Giorgio;Crespi, Mattia;Ravanelli, Michela
2019
Abstract
We present the latest development of the Wave Perturbation-Global Ionosphere-Thermosphere Model (WP-GITM), a three- dimensional physics-based numerical model for seismic/tsunami-ionosphere coupling via atmospheric acoustic-gravity waves. WP-GITM was previously applied to simulate the ionospheric perturbations resulted from the epicentral crustal movement by assuming spherical acoustic-gravity waves originated from a point source, which was specified by the seismic measurement at a single location nearby the epicenter. In this work, we extend WP-GITM to include the effects of Rayleigh surface waves and adapt WP-GITM to utilize seismic measurements from more than one location in the attempt to capture the radiation pattern of the seismic source. We apply the new WP-GITM to model the near-field co-seismic ionospheric perturbations during the 16 September 2015 Illapel earthquake. The comparison between the simulated ionospheric total electron content perturbations and the GPS observations shows promising results.| File | Dimensione | Formato | |
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