The attenuation of seismic waves is a direct measure of the absorption due to nonelastic processes in the earth. The well known difficulties in obtaining body wave amplitude decrement data have been avoided by studying the spectral ratios of multiple ScS and sScS phases from two deep focus earthquakes recorded at near normal incidence. The average Q, for shear, in the mantle is about 600 for the frequency range 0.015 to 0.07 cps. Assuming that equal radiation occurs upwards and downwards from the source the average Q for the upper 600 km of the mantle is determined to be about 200 and about 2200 for the rest of the mantle. The value for Q at the base of the mantle is at least 5000 for shear waves
Using available digital seismic stations deployed since the 1980’s, the largest data set based on br...
Body wave, surface wave, and normal mode data are used to place constraints on the frequency depende...
Anelasticity and heterogeneity in the Earth decreases the energy and modifies the dominant frequency...
The attenuation of seismic waves is a direct measure of the absorption due to nonelastic processes i...
The amplitude attenuation and phase dispersion for Love and Rayleigh waves in the period range 50 to...
Contrasting with conclusions from laboratory experiments that the absorption coefficient k for ampl...
The attenuation of seismic waves is one manifestation of the earth's anelasticity and is not unrelat...
The attenuation of seismic waves provides the most direct data regarding the non-elastic properties ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Earth and Planetary Sciences, 1971....
Free oscillation and body wave data are used to construct average Q models for the earth. The data s...
In 1956 Press reported on single and double reflections of shear waves at near normal incidence fro...
International audienceThis study addresses the sensitivity of seismic attenuation measurements to di...
Spectral analysis is made of the records of the short-period reflected core phases from array statio...
Both spectral and time domain studies indicate that the frequency dependence and regional variation ...
Anelasticity and inhomogeneity in the Earth decreases the energy and modifies the frequency of seism...
Using available digital seismic stations deployed since the 1980’s, the largest data set based on br...
Body wave, surface wave, and normal mode data are used to place constraints on the frequency depende...
Anelasticity and heterogeneity in the Earth decreases the energy and modifies the dominant frequency...
The attenuation of seismic waves is a direct measure of the absorption due to nonelastic processes i...
The amplitude attenuation and phase dispersion for Love and Rayleigh waves in the period range 50 to...
Contrasting with conclusions from laboratory experiments that the absorption coefficient k for ampl...
The attenuation of seismic waves is one manifestation of the earth's anelasticity and is not unrelat...
The attenuation of seismic waves provides the most direct data regarding the non-elastic properties ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Earth and Planetary Sciences, 1971....
Free oscillation and body wave data are used to construct average Q models for the earth. The data s...
In 1956 Press reported on single and double reflections of shear waves at near normal incidence fro...
International audienceThis study addresses the sensitivity of seismic attenuation measurements to di...
Spectral analysis is made of the records of the short-period reflected core phases from array statio...
Both spectral and time domain studies indicate that the frequency dependence and regional variation ...
Anelasticity and inhomogeneity in the Earth decreases the energy and modifies the frequency of seism...
Using available digital seismic stations deployed since the 1980’s, the largest data set based on br...
Body wave, surface wave, and normal mode data are used to place constraints on the frequency depende...
Anelasticity and heterogeneity in the Earth decreases the energy and modifies the dominant frequency...