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Single-force representation of shallow landslide sources

DEPARTMENT OF GEOLOGICAL AND GEOPHYSICAL SCIENCES PRINCETON UNIVERSITY, PRINCETON, NEW JERSEY 08544

Abstract

A horizontal thrust fault situated at the Earth's surface does not excite any seismic radiation. Because of this and because it provides a satisfactory fit to the data, Kanamori and his co-workers have used a point force rather than a conventional moment tensor to represent the long-period Love- and Rayleigh-wave radiation from a number of shallow landslide sources. The force is supposed by Newton's third law to be ²MD, where is the angular frequency, M is the slide mass, and D is the displacement. Day and McLaughlin (1991) have recently shown that the spall accompanying an underground explosion can be represented either by a shallow horizontal tension crack or by a vertical surface point force ²MD, where M is the spall mass and D is the crack separation. Using their method, we show that a landslide can be represented in the JWKB approximation either by a shallow double couple or by a horizontal surface point force; for a Love wave the force is F_L = ²MD(1 – ß²₀/c²₀), whereas for a Rayleigh wave it is F_R = ²MD(1 – 8ß²₀/3c²₀), where ß₀ is the shear-wave velocity within the slide mass and c₀ is the phase velocity of the surface wave in the vicinity of the source. The sliding block appears to be mechanically decoupled from the rest of the Earth, so that F_L F_R ²MD, because of the reduced shear velocity ß₀ within the brecciated rockmass.

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