Open AccessSimulation of distant tsunami propagation with a radial loading deformation effect
Author(s) -
Daisuke Inazu,
Tatsuhiko Saito
Publication year - 2013
Publication title -
earth planets and space
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.835
H-Index - 74
eISSN - 1880-5981
pISSN - 1343-8832
DOI - 10.5047/eps.2013.03.010
Subject(s) - seafloor spreading , tsunami earthquake , geology , deformation (meteorology) , tsunami wave , seismology , scalar (mathematics) , wavelength , near and far field , ocean tide , geodesy , physics , geophysics , geometry , oceanography , mathematics , optics
A simple parameterization of the loading deformation of the seafloor is incorporated into a tsunami simulation model in order to realistically calculate tsunami travel time, especially at regions far from the source. The parameterization uses one scalar parameter that is optimized effectively by far-field, deep-sea records of recent giant tsunamis: the 2011 Tohoku and the 2010 Chilean tsunamis. Using this parameterization with the optimal values, the observed tsunamis are realistically simulated in both near and far fields. The optimal values seem equivalent for both giant tsunamis, and are relatively smaller than those previously verified for ocean tide modeling, which is reasonable because of the shorter wavelengths of tsunamis.
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