Global ETD Search

81	Mantle heterogeneity and flow from seismic and geodynamic constraints Simmons, Nathan Alan, 1975- 18 August 2011 (has links) Not available / text Earth--Mantle Seismic waves--Speed Earth--Density
82	Characterizing Vs profiles by the SASW method and comparison with other seismic methods Lin, Yin-Cheng, 1972- 22 August 2011 (has links) Not available / text Seismic waves Surface waves--Spectra Spectrum analysis
83	A two dimensional finite-difference simulation of seismic wave propagation in elastic media Liow, J. (Jeih-San) 12 1900 (has links) No description available. Seismic waves Elastic waves Finite differences
84	The effect of grout and casing on amplitude measurements for borehole seismic testing Mills, Stephanie Maria 05 1900 (has links) No description available. Earthquake engineering Engineering geology Seismic waves
85	An acoustic method for the detection of surface waves in sand Fenneman, Douglas 08 1900 (has links) No description available. Mines (Military explosives) Detection Seismic Waves Sand
86	Departures from adiabatic conditions for the earth Hill, Robert L. January 1991 (has links) The best type of information about the Earth's interior is seismic. Seismic wave velocity depends on the value of the bulk modulus of the rock. The geophysicist Sir Harold Jeffreys derived a relation between temperature and bulk modulus for solids. From this, and the well known variation of velocity with bulk modulus for solids, we derived the variation of velocity for solids with temperature. We compared this relation to general data on rocks in order to test Jeffreys' predictions in our applications. Next, using the above relation as well as the well known relation between temperature and radius for an adiabatic Earth, we found the variation of bulk modulus with radius. This relation was then compared to actual values of the bulk modulus of the Earth in each major region.The variation of bulk modulus with radius should have been a close fit to the derived equation. This closeness of the fit would then be a measure of how close a region was too adiabatic conditions.The results of this study seem to indicate that the inner core and the outer core of the Earth seem to be near adiabatic conditions. / Department of Physics and Astronomy Earth temperature. Seismic waves. Earth -- Core.
87	Seismic body-wave anisotropy beneath continents Singh, Jasbinder January 1983 (has links) A search for the effects of anisotropy on seismic body-waves predicted by theory is described. Preliminary studies were based on long-period data from the WWSSN, HGLP and SRO networks. These showed that data from the WWSSN network are unsuitable for anisotropy studies because of features in the geometry of the recording system which lead to misalignment of the digitizer relative to the galvanometer-swing (which it is not always possible to correct) and the fact that the horizontal components are not always well matched. Digital data from the HGLP (recorded after 1976) and SRO networks are more suitable for anisotropy studies but eventually it was found that the anisotropic differences are too small to be resolved by long-period instruments. Analysis of short-period teleseismic shear-waves observed at LRSM stations located in United States and southern Canada has revealed shear-wave splitting diagnostic of anisotropy somewhere along the path. The shear-wave splitting is often seen as two separate shear-wave arrivals on the rotated horizontal components. All cases of shear-wave splitting are indicated by an abrupt change in the direction of particle-motion in the horizontal plane. A selection of seismograms and associated particlemotion diagrams is presented in order to illustrate shear-wave splitting. The polarizations of the first arrival shear-waves and the delays between the shear-wave arrivals were measured and are presented in the form of stereograms. The maximum shear-wave delay observed is 2.75 seconds and on the basis of this, we calculate the thickness of the anisotropic layer to be 248 kms for a model with 4.5% differential shearwave velocity anisotropy. For a model with much higher differential shear-wave velocity anisotropy (8.4%), the thickness of the layer is only 136 kms. Our results do not allow us to constrain the depth to the top of the anisotropic layer, although on the basis of other studies we believe the anisotropic layer to be situated immediately below the Mohorovicic discontinuity. The polarizations are broadly similar to those obtained theoretically for the y- and z-cuts of olivine, transversely isotropic olivine and mixture of transversely isotropic olivine/isotropic material. On the basis of this, we tentatively identify N50°E as a direction of symmetry and note that it is approximately parallel to the absolute motion of the North-American plate. We therefore suspect a causal relationship between plate motion and the generation of anisotropy. The most likely hypothesis is that as the continental lithosphere moves across the asthenosphere, the drag on the lithosphere sets up a horizontal compression in the direction of motion of the lithosphere relative to the asthenosphere and olivine crystals align by {Okl} [100] pencil glide so that the a-axis points into the direction of plate motion while the b and c axes form girdles perpendicular to the a-axis. This would result in transverse isotropy with the axis of symmetry horizontal, an orientation which is consistent with our results. The existence of anisotropy in the upper mantle has implications for other seismological studies. In particular, focal mechanism studies which rely solely on S-wave polarizations will be erroneous and studies of travel-time residuals will need to take account of the anisotropy. 551.22 Seismic waves : Shear waves : Anisotropy
88	Common conversion point stacking for P-SV converted waves / Zhang, Yaohui. January 1992 (has links) Thesis (Ph.D.)--University of Tulsa, 1992. / Bibliography: leaves 123-131.
89	Seismic calibration of northern Eurasia using regional phases from nuclear explosions and 3-D Moho configuration of accreted terranes in western British Columbia Li, Hongyan. January 2006 (has links) Thesis (Ph. D.)--University of Wyoming, 2006. / Title from PDF title page (viewed on June 16, 2008). Includes bibliographical references.
90	Applications of global seismic tomography and analysis of variational methods for the solution of the linearly attenuating frequency domain wave equation / Johnson, Stuart G., January 1997 (has links) Thesis (Ph. D.)--University of California, San Diego, 1997. / Vita. Includes bibliographical references.

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