Detection of Different Properties of Ionospheric Perturbations in the Vicinity of the Korean Peninsula After the Hunga‐Tonga Volcanic Eruption on 15 January 2022

Hong, J.; Kil, H.; Lee, Woo Kyoung; Kwak, Young‐Sil; Choi, Byung‐Kyu; Paxton, L. J.

doi:10.1029/2022gl099163

Cited by 12 publications

(11 citation statements)

References 46 publications

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“…Among them, TIDs with velocities between 350 and 400 m/s had attracted extensive attention due to their strong amplitude (∼1.3 TECU). Whereas TIDs with velocities between 200 and 300 m/s were also observed globally (Hong et al, 2022;Matoza et al, 2022;Themens et al, 2022;Wright et al, 2022;Zhang et al, 2022). These slow TIDs are consistent with the third TID in our observation.…”

Section: Comparison With Previous Observationssupporting

confidence: 91%

“…We used TEC data from a dense GNSS network in China to monitor the TIDs after the Tonga volcanic eruption. The main objectives and significance of our study can be summarized as follows: (a) After the event, the community investigated the global ionospheric response using multiple instruments in New Zealand, Australia, Japan, North America, and Western Europe (e.g., Aa et al., 2022; Harding et al., 2022; Hong et al., 2022; Lin et al., 2022; Matoza et al., 2022; Themens et al., 2022; Verhulst et al., 2022; Wright et al., 2022; Zhang et al., 2022). However, the dense Chinese GNSS data have not yet been analyzed.…”

Section: Introductionmentioning

confidence: 99%

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Multiwave Structure of Traveling Ionospheric Disturbances Excited by the Tonga Volcanic Eruptions Observed by a Dense GNSS Network in China

Ding

Yue

et al. 2023

Space Weather

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We used dense global navigation satellite system data from China to track the propagation of traveling ionospheric disturbances (TIDs) triggered by the 2022 January 15 Tonga volcanic eruption. We identified two TIDs originating from the eruption. One, which has been reported widely by a number of recent investigations, had a velocity of ∼361 m/s. However, another long‐distance propagating TID with a velocity of ∼264 m/s has not been widely discussed. The velocities of these TIDs coincide with previous simulation results of gravity‐wave L0 and L1 modes. We propose that these TIDs were caused by the L0 and L1 ducted modes of gravity waves excited by the volcanic eruption. However, the L1 mode is usually negligible due to its weak amplitude in comparison with that of the L0 mode. The enormous energy release resulted in a stronger amplitude of the L1 mode, which induced a detectable TID in the ionosphere.

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Section: Comparison With Previous Observationssupporting

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Multiwave Structure of Traveling Ionospheric Disturbances Excited by the Tonga Volcanic Eruptions Observed by a Dense GNSS Network in China

Ding

Yue

et al. 2023

Space Weather

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“…Due to the extreme change in the thermospheric winds and the associated equatorial electric field disturbance, equatorial ionization anomalies (EIAs) were found to be suppressed and reshaped after the eruption (Aa, Zhang, Wang, et al, 2022;Gasque et al, 2022;Harding et al, 2022;Le et al, 2022). Significant equatorial plasma bubbles (EPBs) and irregularity activities were observed Hong et al, 2022;Sun et al, 2022), and the ionospheric disturbances in the conjugate hemisphere were also suggested (Lin et al, 2022). These and other studies (Astafyeva et al, 2022;Ghent & Crowell, 2022;K.…”

mentioning

confidence: 70%

Large‐Scale Disturbances in the Upper Thermosphere Induced by the 2022 Tonga Volcanic Eruption

Lei

Kusche

et al. 2023

Geophysical Research Letters

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The catastrophic eruption of Hunga Tonga-Hunga Ha'apai volcano (20.54° S, 175.38° W, hereafter the Tonga volcano) at 04:14:45 UT 15 January 2022 released an estimated energy between 10 and 28 EJ into the atmosphere, which is believed to be the largest since the 1883 Krakatoa eruption (Wright et al., 2022). The extreme eruption not only triggered earthquakes and tsunamis, but also caused significant disturbances in the upper atmosphere

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“…Once the waves were generated in the atmosphere, wave signatures were observed propagating horizontally around the globe. The most persistent of these had properties consistent with a Lamb wave, a non‐dispersive pressure wave which propagated globally at speeds estimated between 300 and 390 m/s (with most estimates around 310 m/s), and whose signature was clearly distinguishable in total electron content (TEC) data taken by the Global Navigation Satellite System (Aa et al., 2022; Amores et al., 2022; Hong et al., 2022; Kataoka et al., 2022; Kulichkov et al., 2022; Lin et al., 2022; Otsuka, 2022; Wright et al., 2022; Zhang et al., 2022). Zhang et al.…”

Section: Introductionmentioning

confidence: 99%

“…• Extremely large ion drift velocities are observed ∼4,000 km from Tonga less than an hour post-eruption, before any atmospheric wave arrived • The ion drifts are driven by volcanically forced polarization electric fields transmitted along Earth's magnetic field via Alfvén waves • The drift signature is consistent with the dynamo effect of an expanding atmospheric wave with a >200 m/s amplitude Once the waves were generated in the atmosphere, wave signatures were observed propagating horizontally around the globe. The most persistent of these had properties consistent with a Lamb wave, a non-dispersive pressure wave which propagated globally at speeds estimated between 300 and 390 m/s (with most estimates around 310 m/s), and whose signature was clearly distinguishable in total electron content (TEC) data taken by the Global Navigation Satellite System (Aa et al, 2022;Amores et al, 2022;Hong et al, 2022;Kataoka et al, 2022;Kulichkov et al, 2022;Lin et al, 2022;Otsuka, 2022;Wright et al, 2022;Zhang et al, 2022). Zhang et al (2022) detected a TEC signature consistent with a propagating Lamb wave up to 100 hr after the eruption, after the wave had circled the globe at least three times.…”

mentioning

confidence: 99%

Rapid Volcanic Modification of the E‐Region Dynamo: ICON's First Glimpse of the Tonga Eruption

Gasque

Harding

et al. 2022

Geophysical Research Letters

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The 15 January 2022 Hunga Tonga‐Hunga Ha'apai volcano eruption drove global atmospheric waves that propagated into space and impacted the ionosphere. Here we show immediate large‐scale electrodynamic effects of the eruption using observations from the National Aeronautics and Space Administration's Ionospheric Connection Explorer. We report extreme zonal and vertical trueE⃗×B⃗ $\vec{E}\times \vec{B}$ ion drifts thousands of kilometers away from Tonga within an hour of the eruption, before the arrival of any atmospheric wave. The measured drifts were magnetically connected to the ionospheric E‐region just 400 km from Tonga, suggesting that the expanding wavefront created strong electric potentials which were transmitted along Earth's magnetic field. A simple theoretical model suggests that the observed drifts are consistent with an expanding wave with a large (>200 m/s) neutral wind amplitude. These observations are the first direct detection in space of the immediate electrodynamic effects of a volcanic eruption and will help constrain future models of impulsive lower atmospheric events.

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Detection of Different Properties of Ionospheric Perturbations in the Vicinity of the Korean Peninsula After the Hunga‐Tonga Volcanic Eruption on 15 January 2022

Cited by 12 publications

References 46 publications

Multiwave Structure of Traveling Ionospheric Disturbances Excited by the Tonga Volcanic Eruptions Observed by a Dense GNSS Network in China

Multiwave Structure of Traveling Ionospheric Disturbances Excited by the Tonga Volcanic Eruptions Observed by a Dense GNSS Network in China

Large‐Scale Disturbances in the Upper Thermosphere Induced by the 2022 Tonga Volcanic Eruption

Rapid Volcanic Modification of the E‐Region Dynamo: ICON's First Glimpse of the Tonga Eruption

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