Slowness-backazimuth weighted migration: A new array approach to a high-resolution image |
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| Authors: | Tadashi Kito reas Rietbrock Christine Thomas |
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| Institution: | Department of Earth and Ocean Sciences, University of Liverpool, Liverpool, UK. E-mail: |
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| Abstract: | We have developed a new array method combining conventional migration with a slowness-backazimuth deviation weighting scheme. All seismic traces are shifted based on the theoretical traveltime of the scattered wave from specific gridpoints in a 3-D volume. Observed slowness and backazimuth are calculated for each raypath and compared with theoretical values in order to estimate slowness and backazimuth deviations. Subsequently, stacked energy calculated by a conventional migration method is weighted by the slowness and backazimuth deviations to suppress any arrival energy whose slowness and backazimuth are inconsistent with the expected theoretical values. This new method was applied to two P- wave data sets which comprise (1) underside reflections at the 410 and 660 km mantle discontinuities and (2) D" reflections as well as their corresponding synthetic data sets. The results show that the weighting scheme dramatically increases the resolution of the migrated images and enables us to obtain well-constrained, focused images, making upper-mantle discontinuities and D" reflections more distinct by reducing their surrounding energy. |
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| Keywords: | D" discontinuity mantle discontinuity migration method seismic array |
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