Characteristics of PmP phases from earthquakes and their role in crustal tomography: An active volcanic area example, northeastern Japan

Later earthquake-sourced PmP phases have the potential to significantly improve ray coverage and resolution of crustal tomography methods, as their trajectories are quite different from those of shallower P phases. This paper analyzes the characteristics of later PmP arrival times from earthquakes w...

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Bibliographic Details
Published in:Science China. Earth sciences 2011-05, Vol.54 (5), p.640-646
Main Authors: Xia, ShaoHong, Qiu, XueLin, Xu, HuiLong, Zhao, MingHui, Shi, XiaoBin
Format: Article
Language:English
Subjects:
Earth and Environmental Science
Earth Sciences
Earthquakes
Plate tectonics
PMP
Research Paper
Seismic activity
Seismology
Tomography
Upper mantle
Upwelling
Volcanoes
东北部
到达时间差
地壳结构
地震源
火山地区
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Summary:Later earthquake-sourced PmP phases have the potential to significantly improve ray coverage and resolution of crustal tomography methods, as their trajectories are quite different from those of shallower P phases. This paper analyzes the characteristics of later PmP arrival times from earthquakes with different focal depths. The results show that PmP arrival time differences from earthquakes at a range of focal depths are gradually lowered with increasing offset. We found that where the first recorded P-wave phase was the intra-crustal refraction phase (Pg), the differences in arrival time between Pg and PmP phases decreased with increasing focal depth at an offset of less than 120 km. Where the first P-wave phase is the upper mantle refraction phase (Pn), the difference in arrival times between Pn and PmP phases became larger with an increase in focal depth at an offset of more than 150 km. A total of 394 PmP phases and 3356 first P phases were picked from seismograms in the active volcanic area of northeastern Japan, according to the characteristics of calculated arrival times, amplitudes and particle motions. These were used to investigate the role of PmP phases in crustal tomography beneath an active volcanic region. Results of the detailed resolution analysis show that the addition of PmP data can improve significantly the resolution of the lower crustal structure in tomographic images. After the PmP data were included in the tomographic inversion, the path of upwelling magma, along which a series of low-frequency microearthquakes is clearly distributed, was better imaged. These results suggest that the PmP phase has an important role in detailed crustal tomography.
ISSN:1674-7313
1869-1897
DOI:10.1007/s11430-010-4164-z