2013
DOI: 10.1002/2013gl057401
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Finite frequency whole mantle P wave tomography: Improvement of subducted slab images

Abstract: [1] We present a new whole mantle P wave tomographic model GAP_P4. We used two data groups; short-period data of more than 10 million picked-up onset times and long-period data of more than 20 thousand differential travel times measured by waveform cross correlation. Finite frequency kernels were calculated at the corresponding frequency bands for both long-and short-period data. With respect to an earlier model GAP_P2, we find important improvements especially in the transition zone and uppermost lower mantle… Show more

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Cited by 201 publications
(240 citation statements)
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“…A weak velocity anomaly was apparent in their regional tomography studies that appears to correspond to the reflector in location 1. A significant improvement in resolution of this area was shown recently in Obayashi et al (2013) and . By combining ray theory and finite frequency kernels for broadband waveform data, they were able to image slabs in the MTZ with unprecedented clarity.…”
Section: New Tomographic Studiesmentioning
confidence: 79%
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“…A weak velocity anomaly was apparent in their regional tomography studies that appears to correspond to the reflector in location 1. A significant improvement in resolution of this area was shown recently in Obayashi et al (2013) and . By combining ray theory and finite frequency kernels for broadband waveform data, they were able to image slabs in the MTZ with unprecedented clarity.…”
Section: New Tomographic Studiesmentioning
confidence: 79%
“…Only location '1' fits all observations. the dedicated deployment of broadband ocean bottom seismometer networks supported by the Japanese project 'Stagnant Slab Project' (Miyamachi et al 2009;Shiobara et al 2009) and the development of new tomographic methods Obayashi et al 2013). So, after this forced hiatus, we present here our original findings, which still constitute key observations due to the scarcity of deep large events in this region, augmented by new data from two additional events recorded at additional arrays (Section 4.1) and several new figures , which show that the results from our array analysis, using both P and S waves in contrast to previous publications, provide a location for a stranded slab that is in good agreement with recent high-resolution tomography.…”
mentioning
confidence: 99%
“…Next, we dealt with the relative P-wave travel times among stations in a seismic array, which have often been measured and used for recent seismic tomography (Wolfe et al 2009(Wolfe et al , 2011Obayashi et al 2013Obayashi et al , 2016. We examined the effects of shallow-layer reverberation on the relative travel times and methods for correcting the effects of reverberation in the study of P-wave tomography for the mantle structure.…”
Section: Effect On Relative Travel Times and Its Correctionmentioning
confidence: 99%
“…Furthermore, filtering out tidal noise complicates the interference of teleseismic body waves with the shallow-layer reverberation, which could result in a waveform distortion and a bias in travel time measurements by waveform cross-correlation of teleseismic body waves (Blackman et al 1995). This bias is frequency dependent, which may cause a bias in mantle images obtained by finite-frequency tomography using BBOBS data (Obayashi et al 2013(Obayashi et al , 2016. Obayashi et al (2004) addressed the effects of shallow-layer reverberation on PP-phases in PP-P differential time measurements.…”
Section: Introductionmentioning
confidence: 99%
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