It noted that disturbances in the atmosphere were detected after the eruption of the Hunga Tonga-Hunga Ha’apai volcano around 1 p.m. on Jan. 15. The resulting air pressure waves reached near ...

which are essential for understanding their impact on atmospheric circulation. Furthermore, the analysis of gravity waves associated with the Tonga eruption highlighted the variability in wave ...

Travelling at more than 1,000 km/hour, two atmospheric pressure waves from the Hunga-Tonga-Hunga-Ha’apai volcanic eruption traveled completely around the world, spreading huge sonic wave sounds ...

Moments before one of the largest underwater volcanic eruptions smothered the Pacific island of Tonga ... shock wave reaching 60 miles high well beyond the stratosphere, or upper atmosphere.

The pressure wave from the Tonga eruption as captured by ... Ash from the eruption was lofted high into the atmosphere. This photo of the eruption was taken from the International Space Station.

New research from a collaborative team featuring Texas A&M University atmospheric scientist Dr. Andrew Dessler is exploring the climate impact of the 2022 Hunga Tonga volcano eruption and ...

A NASA scientist has compared this weekend's volcanic eruption off Tonga with the atomic bomb dropped by the United States at the Japanese city of Hiroshima in 1945 and said the recent episode was ...

This satellite image provided by Maxar Technologies shows an overview of Hunga Tonga Hunga Ha ... Institute of Water and Atmospheric Research, help explain. The eruption on Saturday was incredibly ...

Tsunami experts theorize that shock waves produced after a massive underwater volcanic eruption near Tonga on Jan. 15 caused ... increasing atmospheric pressure by two hectopascals or so.

The Nasa Earth Observatory said earlier that the Hunga Tonga-Hunga Ha’apai volcano spewed debris as high as 40km into the atmosphere during the eruption that triggered huge tsunami waves.