Russian Journal of Earth Sciences Russian Journal of Earth Sciences Russian Journal of Earth Sciences 1681-1208 47180 ОРИГИНАЛЬНЫЕ СТАТЬИ ORIGINAL ARTICLES ОРИГИНАЛЬНЫЕ СТАТЬИ Hydroacoustic effects in the 2003 Tokachi-oki tsunami source Hydroacoustic effects in the 2003 Tokachi-oki tsunami source Bolshakova A Bolshakova A Inoue S Inoue S Kolesov S Kolesov S Matsumoto H Matsumoto H Nosov M Nosov M Ohmachi T Ohmachi T Faculty of Physics, M. V. Lomonosov Moscow State University, Moscow, Russia ru Faculty of Physics, M. V. Lomonosov Moscow State University, Moscow, Russia ru Engineering Seismology Section, Takenaka Research Development Institute, Tokyo, Japan ru Engineering Seismology Section, Takenaka Research Development Institute, Tokyo, Japan ru Faculty of Physics, M. V. Lomonosov Moscow State University, Moscow, Russia ru Faculty of Physics, M. V. Lomonosov Moscow State University, Moscow, Russia ru Japan Agency for Marine-Earth Science and Technology, Yokosuka, Japan ru Japan Agency for Marine-Earth Science and Technology, Yokosuka, Japan ru Faculty of Physics, M. V. Lomonosov Moscow State University, Moscow, Russia ru Faculty of Physics, M. V. Lomonosov Moscow State University, Moscow, Russia ru Japan Dam Engineering Center, Tokyo, Japan ru Japan Dam Engineering Center, Tokyo, Japan ru 12 2 1 14 11 11 2021 https://rjes.ru/en/nauka/article/47180/view

We process the JAMSTEC ocean-bottom pressure gauges and ocean-bottom seismometers datasets obtained during the 2003 Tokachi-oki tsunamigenic earthquake ndash; the first records which have ever been obtained in a large tsunami source. On these records, we discover the unique phenomenon in tsunami source ndash; hydroacoustic resonance, i.e. manifestation of long-lasting elastic oscillations of water column at the minimal normal frequency ~0.14nbsp;Hz. The concept of a weakly coupled system is applied in 3D numerical simulation of the Tokachi-oki event. First, we simulate earthquake ground motion due to seismic fault rupturing. Then, compressible water column disturbance resulting from the dynamic seismic ground motion is simulated using the velocity of bottom deformation as an input to the water column. Comparison between JAMSTEC in-situ measurements and synthetic signals is carried out.

We process the JAMSTEC ocean-bottom pressure gauges and ocean-bottom seismometers datasets obtained during the 2003 Tokachi-oki tsunamigenic earthquake ndash; the first records which have ever been obtained in a large tsunami source. On these records, we discover the unique phenomenon in tsunami source ndash; hydroacoustic resonance, i.e. manifestation of long-lasting elastic oscillations of water column at the minimal normal frequency ~0.14nbsp;Hz. The concept of a weakly coupled system is applied in 3D numerical simulation of the Tokachi-oki event. First, we simulate earthquake ground motion due to seismic fault rupturing. Then, compressible water column disturbance resulting from the dynamic seismic ground motion is simulated using the velocity of bottom deformation as an input to the water column. Comparison between JAMSTEC in-situ measurements and synthetic signals is carried out.

 Tsunami source bottom earthquake water compressibility dynamic bottom deformation numerical simulation ocean-bottom pressure gauges ocean-bottom seismometers spectrograms Tsunami source bottom earthquake water compressibility dynamic bottom deformation numerical simulation ocean-bottom pressure gauges ocean-bottom seismometers spectrograms

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