Affiliation:
1. The University of Texas at Austin, Austin, Texas.
2. OPERA, Pau, France.
3. Rock Solid Images, Houston, Texas.
Abstract
Small geologic features manifest themselves in seismic data in the form of diffracted waves, which are fundamentally different from seismic reflections. Using two field-data examples and one synthetic example, we demonstrate the possibility of separating seismic diffractions in the data and imaging them with optimally chosen migration velocities. Our criteria for separating reflection and diffraction events are the smoothness and continuity of local event slopes that correspond to reflection events. For optimal focusing, we develop the local varimax measure. The objectives of this work are velocity analysis implemented in the poststack domain and high-resolution imaging of small-scale heterogeneities. Our examples demonstrate the effectiveness of the proposed method for high-resolution imaging of such geologic features as faults, channels, and salt boundaries.
Publisher
Society of Exploration Geophysicists
Subject
Geochemistry and Petrology,Geophysics
Reference25 articles.
1. 3-D seismic discontinuity for faults and stratigraphic features: The coherence cube
2. Claerbout, J. F. , 1992, Earth soundings analysis: Processing versus inversion: Blackwell Scientific Publications, Inc.
3. Claerbout, J. F. , 1994, Applications of two- and three-dimensional filtering: 64th Annual International Meeting, SEG, Expanded Abstracts, 1572–1575.
4. Claerbout, J. F. , 2005, Basic earth imaging: Stanford Exploration Project, accessed August 10, 2007, http://sepwww.stanford.edu/sep/prof/.
5. Applications of plane‐wave destruction filters
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