Frequency dependence of seismic wave attenuation in the upper mantle beneath the Australian region

Summary The differential attenuation for upper‐mantle paths beneath northern Australia has been estimated using spectral ratio methods, both in a narrow frequency band near 0.6 Hz to obtain stable estimates for subsequent inversion and also over a broad frequency band up to 3–6 Hz to look at the frequency dependence of attenuation. The frequency dependence of the differential attenuation between P ‐ and S ‐wave arrivals is estimated using a spectral ratio technique based on a power‐law relationship between Q and frequency. This approach isolates the intrinsic Q rather than any scattering component. By exploiting nearly 2000 paths crossing the Australian region, which provide a good coverage of the mantle, the geographical variation of the frequency dependence of attenuation for body waves can be mapped. The differential attenuation (δ t * sp ) between P and S waves in the 0.6 Hz band varies between close to zero for paths wholly within the shield lithosphere to nearly 4 for paths with a long asthenospheric component. A measure of frequency dependence is obtained by fitting the spectral ratio information as a function of frequency using a single power‐law relation for the average dependence of the whole path. The estimates of power‐law exponents show a strong correlation with qualitative measures of attenuation based on the relative frequency content of P and S . There is a weak frequency dependence in the northwestern part of Australia, especially in the shallow part of the upper mantle where Q is very high. In the eastern part of Australia there is a complex structure in attenuation with a mixture of styles of frequency dependence with exponents approaching 1 for the most attenuative paths.