We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Giant ionospheric density hole near the 2022 Hunga-Tonga volcanic eruption: multi-point satellite observations.
- Authors
Choi, Jong-Min; Lin, Charles Chien-Hung; Rajesh, P. K.; Lin, Jia-Ting; Chou, Marty; Kwak, Young-Sil; Chen, Shih-Ping
- Abstract
A giant ionospheric hole was simultaneously detected in the in situ measurements of FORMOSAT-7/COSMIC-2 (F7/C2), Ionospheric Connection Explorer (ICON), Swarm missions, and ground-based total electron content (TEC) by global navigation satellite system receivers, and F7/C2 Global Ionosphere Specification (GIS) data near Tonga, following the explosive volcano eruption on 15 January 2022. The TEC maps displayed the huge depletions that developed near Tonga after the eruption and gradually evolved. The ICON IVM, F7/C2 IVM and Swarm-LP detected large depletions not only near Tonga, but also in the EIA trough region. The GIS observations clearly show the ionospheric hole that extends spatially near Tonga, especially strongly south/southward. The simultaneous observations showed that the ionosphere hole near Tonga combined with the EIA trough and finally evolved into a giant ionosphere hole around 07 UT. The ionospheric hole, which occurred at 05 UT near Tonga, extended over a wide area of 160°-200°E and 25°S-20°N and lasted for about 11 h. The F7/C2 and ICON satellites overpasses showed large ion density depletions by the hole at orbit altitudes, accompanied by enhancements in ion temperature and field-aligned and perpendicular ion drift. Such a long-lasting giant ionospheric hole by a seismic event has not been reported earlier, creating a unique ionospheric environment near Tonga after the eruption. The strong successive impulses by multiple volcano eruptions, together with O/N2 decrease in the summer hemisphere, interhemispheric wind, and water vapor injection into high altitudes apparently yielded such a giant ionospheric hole, 4–6 times larger than that observed during the Tohoku earthquake. Key points: The simultaneous measurements reveal the evolution of the ionospheric hole after the Tonga volcanic eruption. The ionospheric hole that had occurred near Tonga merged with the EIA trough depletion in the northern hemisphere, forming a giant ionospheric hole. The long-lasting giant ionospheric hole is caused by impulsive pressure, trans-equatorial wind, O/N2 depletion, and water vapor injection.
- Subjects
TONGA; TOHOKU Region (Japan); HUNGA Tonga-Hunga Ha'apai Eruption &; Tsunami, 2022; VOLCANIC eruptions; GLOBAL Positioning System; WATER vapor; EARTHQUAKES; ION temperature
- Publication
Earth, Planets & Space, 2023, Vol 75, Issue 1, p1
- ISSN
1343-8832
- Publication type
Article
- DOI
10.1186/s40623-023-01933-1