Isabelle Lecomte scite author profile

We present a new massively parallel method for computation of first arrival times in arbitrary velocity models. An implementation on conventional sequential computers is also proposed.This method relies on a systematic application of Huygens' principle in the finite difference approximation. Such an approach explicitly takes into account the existence of different propagation modes (transmitted and diffracted body waves, head waves). Local discontinuities of the time gradient in the first arrival time field (e.g., caustics) are built as intersections of locally independent wavefronts. As a consequence, the proposed method provides accurate first traveltimes in the presence of extremely severe, arbitrarily shaped velocity contrasts.Associated with a simple procedure which accurately traces rays in the obtained time field, this method provides a very fast tool for a large spectrum of seismic and seismological problems.We show moreover that this method may also be used to obtain several arrivals at a given receiver, when the model contains reflectors. This possibility significantly extends the domain of potential geophysical applications.

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Seismic interpretation of sill complexes in sedimentary basins: implications for the sub-sill imaging problem

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Monitoring of induced seismicity during the first geothermal reservoir stimulation at Paralana, Australia

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From mechanical modeling to seismic imaging of faults: A synthetic workflow to study the impact of faults on seismic

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