1. Ionospheric disturbance analysis of the January 15, 2022 Tonga eruption based on GPS data.
- Author
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Li, Jiafeng, Chen, Kejie, Chai, Haishan, Lin, Jian, Zhou, Zhiyuan, Zhu, Hai, and Lyu, Mingzhe
- Subjects
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VOLCANIC eruptions , *IONOSPHERIC disturbances , *GLOBAL Positioning System , *LAMB waves , *ATMOSPHERIC waves , *RAY tracing - Abstract
Hunga Tonga-Hunga Ha'apai climactic eruption on January 15, 2022, released enormous energy that affected the ionosphere over the Pacific Rim. We analyzed ionospheric disturbance following volcanic eruptions using near-field (<1000km), regional (1000–5000 km), and far-field (5000–12000 km) global positioning system (GPS) observations. The results indicate that the near-field ionospheric perturbation that occurred 8–15 min after the cataclysmic eruption was mainly derived from the shock wave (~1000 m/s) generated by the blast, while the low-frequency branch with long-distance propagation characteristics over the regional and the far-field was mainly associated with atmospheric Lamb waves (~330 m/s). Moreover, the amplitude of disturbance and background total electron content (TEC) are related proportionally. The intensity of the volcanic eruption and the background ionospheric conditions determine the magnitude of ionospheric responses. TEC perturbations were invisible on the reference days. Furthermore, the source location and onset time were calculated using the ray tracing technique, which confirms that the Tonga event triggered the ionospheric anomaly beyond the crater. Finally, the change in the frequency of the perturbations coincided with the arrival of the initial tsunami, implying the generation of a meteotsunami. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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