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Scattering and Attenuations of Seismic Waves, Part II (1989)

Wu, Ru-Shan ; Aki, Keiiti

Basel, Boston, Berlin : Birkhäuser

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Keywords: seismic waves ; seismology

Pages: Online-Ressource (VII, 191 Seiten)

ISBN: 9783034863636

URL: http://link.springer.com/journal/24/131/4/

Language: English

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Scattering and Attenuations of Seismic Waves, Part I (1988)

Aki, Keiiti ; Wu, Ru-Shan

Basel, Boston, Berlin : Birkhäuser

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Keywords: seismic waves ; seismology

Description / Table of Contents: This is volume I of the two-volume special issue Scattering and Attenuation of Seismic Waves which will contain total 17 invited review papers and about 30 c- tributed papers. The scope and contents of the special issue are described in the following Introduction. This volume includes 21 contributed papers arranged in the following order: Scattering theory and modeling including the scattering attenuation and its separation from the intrinsic attenuation; numerical method and simulation; field observation including coda Q and surface wave Q measurement; inversion; laboratory attenuation measurement of rock samples.

Pages: Online-Ressource (VIII, 447 Seiten)

ISBN: 9783034877220

URL: http://link.springer.com/journal/24/128/1/

Language: English

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3

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Transmission fluctuations across an array and heterogeneities in the crust and upper mantle (1990)

Wu, Ru-Shan ; Flatté, Stanley M.

Springer

Pure and applied geophysics 132 (1990), S. 175-196

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ISSN: 1420-9136

Keywords: Wave propagation ; seismic waves ; heterogeneities ; lithosphere

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract Adopting the spectral approach, we derive the formulation of angular coherence and transverse coherence of transmission fluctuations. Our derivation and results provide new insight on transmission fluctuation analysis. A review of research work on fluctuation analysis using observations at large seismic arrays such as LASA and NORSAR-follows. We point out that the model of a single-layer Gaussian medium cannot explain the angular coherence of NORSAR data and a more general model of a non-Gaussian, multi-scale, vertically inhomogeneous random media is needed. The model of a two-layer power-law medium proposed by Flatté and Wu is among the simplest of such models.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00874362

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Multiple scattering and energy transfer of seismic waves—Separation of scattering effect from intrinsic attenuation II. Application of the theory to Hindu Kush region (1988)

Wu, Ru-Shan ; Aki, Keiiti

Springer

Pure and applied geophysics 128 (1988), S. 49-80

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ISSN: 1420-9136

Keywords: Separation of scattering and absorption ; multiple scattering ; coda envelopes ; crustal heterogeneities

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract In order to separate the scattering effect from intrinsic attenuation, we need a multiple scattering model for seismic wave propagation in random heterogeneous media. In paper I (Wu, 1985), radiative transfer theory is applied to seismic wave propagation and the energy density distribution (or the average intensity) in space for a point source is formulated in the frequency domain. It is possible to separate the scattering effect and the absorption based on the measured energy density distribution curves. In this paper, the data from digital recordings in the Hindu Kush region are used as an example of application of the theory. We also discuss two approximate solutions of coda envelope in the time domain: the single scattering approximation and the diffusion approximation and discuss the relation with the frequency domain solution. We point out that in only two cases can the apparent attenuation be expressed as an exponential decay form. One is thedark medium case, i.e., whenB 0≪0.5, whereB 0 =η s /(η s +η a ) is the seismic albedo,η s is the scattering coefficient,η a is the absorption coefficient. In this case the absorption is dominant, the apparent attenuationb can be approximated by the coherent wave attenuationb =η s +η a . The other case is thediffuse scattering regime, i.e., whenB 0≫0.5 (bright medium) andR≫L s ,t ≪ τ s , whereR andt are the propagation distance and lapse time,L s and τ s are the scattering lengths (mean free path) and scattering time (mean free time), respectively. However, in this case the envelope decays with a rate close to the intrinsic attenuation, while the intensity decreases with distance with a coefficientb ≈d 0(η s +η a ) ≈d s η s , whered 0 andd s are the diffusion multipliers (0〈d 0,d s 〈1). For the Hindu Kush region, by comparing the theory with data from two digital stations of 53 events distributed up to depths of 350 km, we find that the scattering is not the dominant factor for the measured apparent attenuation ofS waves in the frequency range 2–20 Hz. From the observation on high frequency (f〉20 Hz) seismograms, we suggest the existence of a stron-scattering surface layer with fine scale heterogeneities in the crust, at least for this region.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01772590

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Synthetic seismograms in heterogeneous media by one-return approximation (1996)

Wu, Ru-Shan

Springer

Pure and applied geophysics 148 (1996), S. 155-173

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ISSN: 1420-9136

Keywords: Wave propagation ; synthetic seismograms ; heterogeneous media ; one-return approximation

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract When reverberations between heterogeneities or resonance scattering can be neglected but accumulated effects of forward scattering are strong, the Born approximation is not valid but the De Wolf approximation can be applied in such cases. In this paper, renormalized MFSB (multiple-forescattering single-backscattering) equations and the dual-domain expression for scalar, acoustic and elastic waves are derived by a unified approach. Two versions of the one-return method (using MFSB approximation) are given: One is the wide-angle dual-domain formulation (thin-slab approximation); the other is the screen approximation. In the screen approximation, which involves a small-angle approximation for the wave-medium interaction, it can be seen clearly that the forward scattered, or transmitted waves are mainly controlled by velocity perturbations; while the backscattered or reflected waves, by impedance perturbations. The validity of the method and the wide-angle capability of the dual-domain implementation are demonstrated by numerical examples. Reflection coefficients of a plane interface derived from numerical simulations by the wide-angle method match the theoretical curves well up to critical angles. For the reflections of a low-velocity slab, the agreement between theory and synthetics only starts to deteriorate for angles greater than 70°. The accuracy of the wide-angle version of the method could be further improved by optimizing the wave-number filtering for the forward propagation and shrinking the step length along the propagation direction.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00882059

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The perturbation method in elastic wave scattering (1989)

Wu, Ru-Shan

Springer

Pure and applied geophysics 131 (1989), S. 605-637

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ISSN: 1420-9136

Keywords: Scattering ; elastic wave ; perturbation method ; heterogeneity

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract Methods of theoretical study in seismic wave scattering are reviewed with the emphasis on the perturbation method. Detailed analysis for weak scattering using Born approximation is given. For elastic random media, the mean square amplitudes of scattered waves are derived using a new approach by working directly in the spectrum domain. The conditions for the scalar wave approximation are obtained. The problem of sensitivity of fore- and backscattering to heterogeneities with different scales and properties (velocity or impedance) is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00876266

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7

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Introduction: Seismic wave scattering in three-dimensionally heterogeneous earth (1988)

Wu, Ru-Shan ; Aki, Keiiti

Springer

Pure and applied geophysics 128 (1988), S. 1-6

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ISSN: 1420-9136

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01772587

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A model for attenuation and scattering in the Earth's crust (1988)

Toksöz, M. Nafi ; Dainty, Anton M. ; Reiter, Edmund ; [et al.]

Springer

Pure and applied geophysics 128 (1988), S. 81-100

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ISSN: 1420-9136

Keywords: Attenuation ; scattering ; crust ; strong motion ; Rg ; coda

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract The mechanisms contributing to the attenuation of earthquake ground motion in the distance range of 10 to 200 km are studied with the aid of laboratory data, coda wavesRg attenuation, strong motion attenuation measurements in the northeast United States and Canada, and theoretical models. The frequency range 1–10 Hz has been studied. The relative contributions to attenuation of anelasticity of crustal rocks (constantQ), fluid flow and scattering are evaluated. Scattering is found to be strong with an albedoB 0=0.8–0.9 and a scattering extinction length of 17–32 km. The albedo is defined as the ratio of the total extinction length to the scattering extinction length. TheRg results indicate thatQ increases with depth in the upper kilometer or two of the crust, at least in New England. CodaQ appears to be equivalent to intrinsic (anelastic)Q and indicates that thisQ increases with frequency asQ=Q o f n , wheren is in the range of 0.2–0.9. The intrinsic attenuation in the crust can be explained by a high constantQ (500≤Q o≤2000) and a frequency dependent mechanism most likely due to fluid effects in rocks and cracks. A fluid-flow attenuation model gives a frequency dependence (Q≃Q o f 0.5) similar to those determined from the analysis of coda waves of regional seismograms.Q is low near the surface and high in the body of the crust.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01772591

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9

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The fractal nature of the inhomogeneities in the lithosphere evidenced from seismic wave scattering (1985)

Wu, Ru-Shan ; Aki, Keiiti

Springer

Pure and applied geophysics 123 (1985), S. 805-818

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ISSN: 1420-9136

Keywords: Fractal ; wave scattering ; seismic coda wave ; lithospheric inhomogeneities ; earthquake faults

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract In this paper we show evidences of the fractal nature of the 3-D inhomogeneities in the lithosphere from the study of seismic wave scattering and discuss the relation between the fractal dimension of the 3-D inhomogeneities and that of the fault surfaces. Two methods are introduced to measure the inhomogeneity spectrum of a random medium: 1. the coda excitation spectrum method, and 2. the method of measuring the frequency dependence of scattering attenuation. The fractal dimension can be obtained from the inhomogeneity spectrum of the medium. The coda excitation method is applied to the Hindu-Kush data. Based on the observed coda excitation spectra (for frequencies 1–25 Hz) and the past observations on the frequency dependence of scattering attenuation, we infer that the lithospheric inhomogeneities are multiple scaled and can be modeled as a bandlimited fractal random medium (BLFRM) with an outer scale of about 1 km. The fractal dimension of the 3-D inhomogeneities isD 3=31/2–32/3, which corresponds to a scaling exponent (Hurst number)H=1/2–1/3. The corresponding 1-D inhomogeneity spectra obey the power law with a powerp=2H+1=2–5/3. The intersection between the earth surface and the isostrength surface of the 3-D inhomogeneities will have fractal dimensionD 1=1.5–1.67. If we consider the earthquake fault surface as developed from the isosurface of the 3-D inhomogeneities and smoothed by the rupture dynamics, the fractal dimension of the fault trace on the surface must be smaller thanD 1, in agreement with recent measurements of fractal dimension along the San Andreas fault.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00876971

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Seismic data compression by an adaptive local cosine/sine transform and its effects on migration (2000)

Wang, Yongzhong ; Wu, Ru-Shan

Oxford, UK : Blackwell Science Ltd

Geophysical prospecting 48 (2000), S. 0

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ISSN: 1365-2478

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Geosciences , Physics

Notes: The local cosine/sine basis is a localized version of the cosine/sine basis with a window function which can have arbitrary smoothness. It has orthogonality and good time and frequency localization properties. The adaptive local cosine/sine basis is a best-basis obtained from an overabundant library of cosine/sine packets based on a cost-functional. We propose a 2D semi-adaptive (time-adaptive or space-adaptive) local cosine transform (referred to as a 2D semi-ALCT) and apply it to the SEG–EAEG salt model synthetic data set for compression. From the numerical results, we see that most of the important features of the data set can be well preserved even in the high compression ratio (CR=40:1) case. Using reconstructed data from the highly compressed ALCT coefficients (CR=40:1) for migration, we can still obtain a high-quality image including subsalt structures. Furthermore, we find that the window partition, generated by the 2D semi-ALCT, is well adapted to the characteristics of the seismic data set, and the compression capability of the 2D semi-ALCT is greater than that of the 2D uniform local cosine transform (2D ULCT). We find also that a (32, 32) or (32, 64) minimum (time, space) window size can generate the best compression results for the SEG–EAEG salt data set.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1365-2478.2000.00224.x

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