Finite difference analysis of Rayleigh wave transmission past an upward step change

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Bulletin of the Seismological Society of America; June 1984; v. 74; no. 3; p. 893-911
© 1984 Seismological Society of America

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Finite difference analysis of Rayleigh wave transmission past an upward step change

MASAHIKO FUYUKI and MASAYOSHI NAKANO

DEPARTMENT OF INDUSTRIAL ENGINEERING KANSAI UNIVERSITY, SUITA, OSAKA 564, Japan
INSTITUTE OF PHYSICS KANSAI UNIVERSITY, SUITA, OSAKA 564, Japan

Abstract

Transmission coefficients of the Rayleigh wave past an upwardstep change are obtained by the finite difference scheme. Inthe region of large height of a step relative to a wavelengthh/ ${lambda}$ , individual phases of the transmitted wave are investigatedand the dominant wave in each phase is clarified. For smallervalues of h/ ${lambda}$ , we examine to what extent the contribution ofthe diffracted wave due to a step change accounts for the discrepancybetween the finite difference results and the prediction ofthe theory of Mal and Knopoff. In order to explain the transmissioncoefficients with h/ ${lambda}$ close to zero, a boundary-perturbationmethod is extended to the second order.

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				P. Moczo, E. Bystricky, J. Kristek, J. M. Carcione, and M. Bouchon Hybrid modeling of P-SV seismic motion at inhomogeneous viscoelastic topographic structures Bulletin of the Seismological Society of America, October 1, 1997; 87(5): 1305 - 1323. [Abstract] [PDF]

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