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Daley, P. F., Hron, F. (1979) SH waves in layered transversely isotropic media—a wave approach. Canadian Journal of Earth Sciences, 16 (10) 1998-2008 doi:10.1139/e79-186

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Reference TypeJournal (article/letter/editorial)
TitleSH waves in layered transversely isotropic media—a wave approach
JournalCanadian Journal of Earth Sciences
AuthorsDaley, P. F.Author
Hron, F.Author
Year1979 (October 1)Volume16
Issue10
PublisherCanadian Science Publishing
DOIdoi:10.1139/e79-186Search in ResearchGate
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Mindat Ref. ID476073Long-form Identifiermindat:1:5:476073:7
GUID0
Full ReferenceDaley, P. F., Hron, F. (1979) SH waves in layered transversely isotropic media—a wave approach. Canadian Journal of Earth Sciences, 16 (10) 1998-2008 doi:10.1139/e79-186
Plain TextDaley, P. F., Hron, F. (1979) SH waves in layered transversely isotropic media—a wave approach. Canadian Journal of Earth Sciences, 16 (10) 1998-2008 doi:10.1139/e79-186
In(1979, October) Canadian Journal of Earth Sciences Vol. 16 (10) Canadian Science Publishing
Abstract/Notes There are many reports in the literature of anomalies in traveltime data when an isotropic homogeneous Earth model is used to interpret field data. In several cases, the introduction of a layered transversely isotropic model has successfully explained these kinematic irregularities. However, it is useful, in fact essential, to confirm the kinematic fit with a dynamic (amplitude) comparison.In this paper the problem of SH waves propagating in a transversely isotropic plane layered medium is discussed through the use of integral transforms and evaluation by steepest descents. This procedure yields not only the asymptotic solution which is also attainable using an asymptotic ray series approach, but also allows for the investigation of the interference of the reflected and head waves in the vicinity of the critical point (point of critical refraction). It is in this region that asymptotic ray theory breaks down or at least introduces significant error in the displacement amplitudes.It can be shown that a simple transformation will reduce this problem to one that may be solved exactly by the Cagnaird de Hoop technique but it is instructive to examine nonspherical wave-fronts in order to obtain an insight into more complicated anisotropic media.

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Daley, P F, Lines, L R (2004) Linearized quantities in transversely isotropic media. Canadian Journal of Earth Sciences, 41 (3) 349-354 doi:10.1139/e04-005
Marks, Larry W., Hron, F. (1979) Dynamic properties of reflected and head waves near the critical point. Canadian Journal of Earth Sciences, 16 (7) 1388-1401 doi:10.1139/e79-124
Daley, P. F., Hron, F. (1982) Computation of synthetic seismograms for a thin layered periodic structure. Canadian Journal of Earth Sciences, 19 (7) 1449-1453 doi:10.1139/e82-125
Pascoe, L. J., Hron, F., Daley, P. F. (1988) The Alekseev–Mikhailenko method applied to P–SV wave propagation in an elastic medium. Canadian Journal of Earth Sciences, 25 (2) 226-234 doi:10.1139/e88-025
Daley, P. F., Hron, F. (1990) Practical numerical considerations for the Alekseev–Mikhailenko method. Canadian Journal of Earth Sciences, 27 (8) 1023-1030 doi:10.1139/e90-106
Schwerdtner, W. M., West, G. F. (1979) The Superior Geotraverse Project. Canadian Journal of Earth Sciences, 16 (10) 1903-1905 doi:10.1139/e79-177
Daley, P. F., Hron, F. (1979) Reflection and transmission coefficients for seismic waves in ellipsoidally anisotropic media. Geophysics, 44 (1) 27-38 doi:10.1190/1.1440920
Chute, F. S., Vermeulen, F. E., Cervenan, M. R., McVea, F. J. (1979) Electrical properties of Athabasca Oil Sands. Canadian Journal of Earth Sciences, 16 (10) 2009-2021 doi:10.1139/e79-187
Stene, Larry P. (1979) Polyframboidal pyrite in the tills of southwestern Alberta. Canadian Journal of Earth Sciences, 16 (10) 2053-2057 doi:10.1139/e79-191
West, G. F., Mareschal, J.-C. (1979) A model for Archean tectonism. Part I. The thermal conditions. Canadian Journal of Earth Sciences, 16 (10) 1942-1950 doi:10.1139/e79-181
Lambert, A., Vaníček, P. (1979) Contemporary crustal movements in Canada. Canadian Journal of Earth Sciences, 16 (3) 647-668 doi:10.1139/e79-064
 
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