Slowness‐weighted diffraction stack for migrating wide‐angle seismic data in laterally varying media

Avendonk, H. J. Van

doi:10.1190/1.1778247

Cited by 5 publications

(2 citation statements)

References 31 publications

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“…Details of the processing scheme are included in Table S1. Reflection phases identified in Figure 3b were positioned in depth by 2-D depth-migration [Van Avendonk, 2004] using the first-arrival velocity field. Those phases identified on TS030/SHOT 9 are shown in Figure 3d and additional PcP reflection arrivals picked on shot and receiver gathers are shown in Figure 8.…”

Section: Seismic Reflectionsmentioning

confidence: 99%

SAHKE geophysical transect reveals crustal and subduction zone structure at the southern Hikurangi margin, New Zealand

Henrys

Wech

Sutherland

et al. 2013

Geochem Geophys Geosyst

129

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[1] The Seismic Array Hikurangi Experiment (SAHKE) investigated the structure of the forearc and subduction plate boundary beneath the southern North Island along a 350 km transect. Tomographic inversion of first-arrival travel times was used to derive a well-resolved 15-20 km deep P wave image of the crust. The refracted phases and migrated reflection events image subducting slab geometry and crustal structure. In the west, Australian Plate Moho depth decreases westward across the Taranaki Fault system from 35 to $28-30 km. In the east, subducted Pacific Plate oceanic crust is recognized to have a positive velocity gradient, but becomes less distinct beneath the Tararua Ranges, where the interface increases in dip at about 15 km depth from <5 to >15 . This bend in the subducted plate is associated with vertical clusters in seismicity, splay fault branching, and low-velocity high-attenuation material that we interpret to be an underplated subduction sedimentary channel. We infer that a step down in the decollement transfers slip on the plate interface at the top of a subduction channel to the oceanic crust and drives local uplift of the Tararua Ranges. Reflections from the Wairarapa Fault show that it is listric and soles into the top of underplated sediments, which in turn abut the Moho of the overriding plate at $32 km depth, near the downdip end of the strongly locked

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Section: Seismic Reflectionsmentioning

confidence: 99%

SAHKE geophysical transect reveals crustal and subduction zone structure at the southern Hikurangi margin, New Zealand

Henrys

Wech

Sutherland

et al. 2013

Geochem Geophys Geosyst

129

View full text Add to dashboard Cite

show abstract

“…Frequently, intracrustal, Moho, and sub-Moho reflections can be imaged using migration techniques applied to wide-angle data (Henstock and Levander, 2000;Henstock et al, 1997;Holbrook et al, 1992;Lafond and Levander, 1995;McMechan and Fuis, 1987;Milkereit et al, 1990;Morozov and Levander, 2002;Van Avendonk, 2004). However, the velocity model for wide-angle migration needs to be more accurate than for conventional migration, as minor lateral velocity errors are compounded for travel paths with large horizontal components.…”

Section: Wide-angle Migrationmentioning

confidence: 98%

Crust and Lithospheric Structure - Active Source Studies of Crust and Lithospheric Structure

Levander

Zelt

Symes

2007

Treatise on Geophysics

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Crustal wide-angle reflection imaging along Lianxian-Gangkou profile in Guangdong province, China

et al. 2009

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A 400 km-long wide-angle seismic experiment along Lianxian-Gangkou profile in South China was carried out to study contact relationship between southeast continental margin of Yangtze block and northwest continental margin of Cathaysia block. We reconstructed crustal wide-angle reflection structure by the depth-domain pre-stack migration and the crustal velocity model constructed from the traveltime fitting. The wide-angle reflection section shows different reflection (from crystalline basement and Moho) pattern beneath the Yangtze and Cathaysia blocks, and suggests the Wuchuan-Sihui fault is the boundary between them. A cluster of well-developed reflections on Moho and in its underlying topmost mantle probably comes from alternative thin layers, which may be seismic signature of strong interaction between crust and mantle in the tectonic environment of lithosphere extension.

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Slowness‐weighted diffraction stack for migrating wide‐angle seismic data in laterally varying media

Cited by 5 publications

References 31 publications

SAHKE geophysical transect reveals crustal and subduction zone structure at the southern Hikurangi margin, New Zealand

SAHKE geophysical transect reveals crustal and subduction zone structure at the southern Hikurangi margin, New Zealand

Crust and Lithospheric Structure - Active Source Studies of Crust and Lithospheric Structure

Crustal wide-angle reflection imaging along Lianxian-Gangkou profile in Guangdong province, China

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