Acoustic-gravity waves from the source region of the 2011 great Tohoku earthquake (Mw = 9.0)

Acoustic-gravity waves from the source region of the 2011 great Tohoku earthquake (Mw = 9.0)

Atmospheric pressure waves were recorded within 5 h after the 2011 great Tohoku earthquake (Mw = 9.0) by sensitive microbarographs at four regional stations and eight International Monitoring System stations at distances up to 6700 km. While its apparent phase velocity between the regional stations...

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Veröffentlicht in:Journal of geophysical research. Solid earth 2013-04, Vol.118 (4), p.1534-1545
Hauptverfasser: Mikumo, Takeshi, Garces, Milton, Shibutani, Takuo, Morii, Wataru, Okawa, Takashi, Ishihara, Yasushi
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Sprache:eng
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2011 Tohoku earthquake
acoustic-gravity waves
Acoustics
Deformation
Earthquakes
Geophysics
Gravitational waves
Gravity waves
Monitoring systems
Seismic activity
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container_end_page 1545
container_issue 4
container_start_page 1534
container_title Journal of geophysical research. Solid earth
container_volume 118
creator Mikumo, Takeshi
Garces, Milton
Shibutani, Takuo
Morii, Wataru
Okawa, Takashi
Ishihara, Yasushi
description Atmospheric pressure waves were recorded within 5 h after the 2011 great Tohoku earthquake (Mw = 9.0) by sensitive microbarographs at four regional stations and eight International Monitoring System stations at distances up to 6700 km. While its apparent phase velocity between the regional stations is 341 m/s, the global stations indicate weak dispersive wave trains with low frequencies between 1.6 and 4.8 mHz, propagating with an average phase velocity around 364 m/s. The low‐frequency waves may be interpreted as acoustic‐gravity waves excited by upheaval and depression of the sea surface in the source region due to coseismic uplift and subsidence of the sea bottom during this great thrust earthquake. Assuming the source dimension and the average coseismic vertical displacements of the sea surface, with reference to tsunami observations, we calculate synthetic waveforms for some of the far‐field stations by incorporating a standard sound velocity structure in the atmosphere up to an altitude of 220 km. The synthetics provide reasonable explanations for the general features of the observed waveforms, suggesting possible ranges for the source parameters generating these acoustic‐gravity waves. Our analysis suggests that the average initial upheaval of the sea surface in the central zones of the source region may exceed 4–6 m and that the risetime of the coseismic deformation may be in the range between 3 and 4 min. In the eastern narrow zone adjacent to the Japan Trench, the deformation has significantly higher initial amplitude and shorter risetime. Key Points Acoustic‐gravity waves were observed after the 2011 Tohoku earthquakeThe observed waves may be interpreted as from the earthquake source regionThe synthetic waveforms elucidated the earthquake source
doi_str_mv 10.1002/jgrb.50143
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Assuming the source dimension and the average coseismic vertical displacements of the sea surface, with reference to tsunami observations, we calculate synthetic waveforms for some of the far‐field stations by incorporating a standard sound velocity structure in the atmosphere up to an altitude of 220 km. The synthetics provide reasonable explanations for the general features of the observed waveforms, suggesting possible ranges for the source parameters generating these acoustic‐gravity waves. Our analysis suggests that the average initial upheaval of the sea surface in the central zones of the source region may exceed 4–6 m and that the risetime of the coseismic deformation may be in the range between 3 and 4 min. In the eastern narrow zone adjacent to the Japan Trench, the deformation has significantly higher initial amplitude and shorter risetime. 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source Wiley Online Library Journals Frontfile Complete; Wiley Free Content
subjects 2011 Tohoku earthquake
acoustic-gravity waves
Acoustics
Deformation
Earthquakes
Geophysics
Gravitational waves
Gravity waves
Monitoring systems
Seismic activity
title Acoustic-gravity waves from the source region of the 2011 great Tohoku earthquake (Mw = 9.0)
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