Strong Gravity Waves Associated With Tonga Volcano Eruption Revealed by SABER Observations
Xiao Liu, Jiyao Xu, Jia Yue, Masaru Kogure
Abstract
Abstract Using the Sounding of the Atmosphere using Broadband Emission Radiometry temperature profiles from January 6 to 21 2022, we studied the mesospheric gravity waves (GWs) associated with the Tonga volcano eruption on January 15. We observed that the eruption induced strong GWs in the mesosphere. Detailed analysis shows that there were strong GWs with amplitudes greater than 30 K (twice the usual GWs) on January 15. These GWs have dominant vertical wavelengths of 13.9–25.5 km and horizontal speeds of 44–81 ms −1 , and they have intrinsic periods (momentum flux per unit mass) of ∼2–5 hr (4–320 m 2 s −2 ). The strong but slow GWs observed here are opposite to the fast GWs observed at different atmospheric layers after the Tonga volcano eruption, and are stronger than the GWs associated with other volcanic eruption and extreme weather events. Such that one can get a more comprehensive picture on GWs excited by a powerful source.