Seismic Surface Waves in a Laterally Inhomogeneous Earth

1. Theory.- 1. Surface waves in vertically inhomogeneous media.- 1.1. Equations of motion for an elastic medium.- 1.2. Sources of seismic disturbance.- 1.3. Surface waves due to a point source in a vertically varying half-space.- 1.4. Physical interpretation; some simple examples.- 1.5. Sphericity corrections; variational formulas.- 1.6. Effects of anelasticity.- 1.7. Synthetic seismograms.- 2. Surface waves in media with weak lateral inhomogeneity.- 2.1. Formulation of problems of surface wave propagation in a half-space with weak lateral inhomogeneity.- 2.2. Propagation of harmonic surface waves.- 2.3. Propagation of transient surface waves.- 2.4. Calculation of geometrical spreading for space-time rays.- 2.5. Reflection and refraction of space-time rays at a discontinuity.- 2.6. Space-time rays and geometrical spreading in the spherical case.- 2.7. On the configuration of space-time rays.- 3. Surface waves in media involving vertical contacts.- 3.1. Statement of the problem.- 3.2. A review of available theoretical results.- 3.3. Approximate calculation of surface wave reflection and transmission coefficients at a contact.- 3.4. A numerical method for determining the displacement field.- 3.5. Oblique contact and other possible refinements.- 4. Computation techniques for surface waves.- 4.1. On the matrix method for one-dimensional boundary value problems.- 4.2. A numerical method for solving one-dimensional boundary value problems.- 4.3. Dynamic ray tracing.- 4.4. Calculation of reflection and transmission coefficients.- 2. Interpretation of Surface Wave Observations.- 5. Recording, identification, and measurement of surface wave parameters.- 5.1. Recording techniques and equipment in surface wave observations.- 5.2. Basics of surface wave processing.- 5.3. Frequency-time analysis.- 5.4. Linear polarization analysis.- 5.5. Spatial analysis of surface waves.- 6. Methods for quantitative interpretation of observations.- 6.1. A review of recent approaches to the inversion of surface wave data.- 6.2. Least squares and singular value decomposition.- 6.3. Quadratic programming methods.- 6.4. Modelling experimental data in a block structure.- 6.5. Backus—Gilbert method.- 6.6. Surface wave tomography based on a combined use of phase and group velocities for different periods.- 6.7. The influence of lateral inhomogeneity on the measurement of surface wave attenuation.- 6.8. Anisotropy or inhomogeneity?.- 6.9. Estimation of earthquake source parameters.- 7. Some results from studies of regional lithospheric structure by surface waves.- 7.1. The method of path elimination in a study of the Eurasian crust.- 7.2. Results obtained by the Backus—Gilbert method.- 7.3. Anomalous Rayleigh surface waves in northeast Eurasia.- References.