Research Note: The sensitivity of surface seismic P-wave data in transversely isotropic media to reflector depth
AuthorsAlkhalifah, Tariq Ali
KAUST DepartmentEarth Science and Engineering Program
Physical Science and Engineering (PSE) Division
Seismic Wave Analysis Group
Online Publication Date2016-12-16
Print Publication Date2017-09
Permanent link to this recordhttp://hdl.handle.net/10754/622668
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AbstractThe leading component of the high-frequency asymptotic description of the wavefield, given by the travel time, is governed by the eikonal equation. In anisotropic media, traveltime measurements from seismic experiments conducted along one surface cannot constrain the long-wavelength attribute of the medium along the orthogonal-to-the-surface direction, as anisotropy introduces an independent parameter controlling wave propagation in the orthogonal direction. Since travel times measured on the Earth's surface in transversely isotropic media with a vertical symmetry axis are mainly insensitive to the absolute value of the anisotropic parameter responsible for relating these observations to depth δ, the travel time was perturbed laterally to investigate the traveltime sensitivity to lateral variations in δ. This formulation can be used to develop inversion strategies for lateral variations in δ in acoustic transversely isotropic media, as the surface-recorded data are sensitive to it even if the model is described by the normal moveout velocity and horizontal velocity, or the anellipticity parameter η. Numerical tests demonstrate the enhanced sensitivity of our data when the model is parameterised with a lateral change in δ.
CitationAlkhalifah T (2016) Research Note: The sensitivity of surface seismic P-wave data in transversely isotropic media to reflector depth. Geophysical Prospecting. Available: http://dx.doi.org/10.1111/1365-2478.12483.
SponsorsThe author would like to thank KAUST for its support, Vladimir Li for the fruitful discussions, and Alexey Stovas and an anonymous reviewer for their critical suggestions that improved the paper.