Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование
Numerical modelling of seismic waves from earthquakes recorded by a network on ice floes. / Serdyukov, Aleksander; Koulakov, Ivan; Yablokov, Aleksander.
в: Geophysical Journal International, Том 218, № 1, 01.07.2019, стр. 74-87.Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование
}
TY - JOUR
T1 - Numerical modelling of seismic waves from earthquakes recorded by a network on ice floes
AU - Serdyukov, Aleksander
AU - Koulakov, Ivan
AU - Yablokov, Aleksander
PY - 2019/7/1
Y1 - 2019/7/1
N2 - A promising way to perform seismological studies in the Arctic region is deploying seismic stations on ice floes. The pioneering works by the AlfredWegener Institute Bremerhaven have demonstrated the efficiency of such floating networks to explore local and regional seismicity and to build 3-D seismic models. However, problems remain, related to the identification of different types of seismicwaves, particularly Swaves. Here,we perform2-D and 3-D numerical simulations of seismic waves emitted by an earthquake to explore the possibility of recording different phases on the sea surface. We use different types of simple shear source models, namely strike-slip, vertical displacement and normal faults. In the calculated wave field, we obtain three major types of seismic waves recorded on the sea surface-Pw, Sw and SPw (w denotes an acoustic wave in the water layer)-and numerous multiple waves. The clarity of the recorded phases strongly depends on the type of wave, source mechanism, epicentral distance, thickness of the water layer and depth of the source. For example, the Pw phase is clearest for the strike-slip mechanism, less clear for the normal fault and almost invisible for the vertical displacement. The Sw phase is observable in all of these cases; however, it can be confused with the SPw phase that arrives earlier. In addition, at some distances, the Sw wave interferes with the multiple Pw2 wave and therefore is hardly detectable. In summary, the numerical simulations in a model with a water layer have demonstrated several non-obvious features of wave propagation that should be taken into account when analysing experimental data recorded on ice floes.
AB - A promising way to perform seismological studies in the Arctic region is deploying seismic stations on ice floes. The pioneering works by the AlfredWegener Institute Bremerhaven have demonstrated the efficiency of such floating networks to explore local and regional seismicity and to build 3-D seismic models. However, problems remain, related to the identification of different types of seismicwaves, particularly Swaves. Here,we perform2-D and 3-D numerical simulations of seismic waves emitted by an earthquake to explore the possibility of recording different phases on the sea surface. We use different types of simple shear source models, namely strike-slip, vertical displacement and normal faults. In the calculated wave field, we obtain three major types of seismic waves recorded on the sea surface-Pw, Sw and SPw (w denotes an acoustic wave in the water layer)-and numerous multiple waves. The clarity of the recorded phases strongly depends on the type of wave, source mechanism, epicentral distance, thickness of the water layer and depth of the source. For example, the Pw phase is clearest for the strike-slip mechanism, less clear for the normal fault and almost invisible for the vertical displacement. The Sw phase is observable in all of these cases; however, it can be confused with the SPw phase that arrives earlier. In addition, at some distances, the Sw wave interferes with the multiple Pw2 wave and therefore is hardly detectable. In summary, the numerical simulations in a model with a water layer have demonstrated several non-obvious features of wave propagation that should be taken into account when analysing experimental data recorded on ice floes.
KW - Computational seismology
KW - Earthquake dynamics
KW - Seismic tomography
KW - Theoretical seismology
KW - Wave propagation
KW - SPREADING GAKKEL RIDGE
KW - UPPER-MANTLE
KW - MEDIA
KW - FDM SIMULATION
KW - ARCTIC-OCEAN
KW - PROPAGATION
UR - http://www.scopus.com/inward/record.url?scp=85067680335&partnerID=8YFLogxK
U2 - 10.1093/gji/ggz148
DO - 10.1093/gji/ggz148
M3 - Article
AN - SCOPUS:85067680335
VL - 218
SP - 74
EP - 87
JO - Geophysical Journal International
JF - Geophysical Journal International
SN - 0956-540X
IS - 1
ER -
ID: 20640207