Filtering of a Ricker wavelet induced by anelastic seismic wave propagation and reflection

Abstract A varying Q factor with depth induces modifications of seismic wave features due to anelastic propagation but also reflections at the discontinuities. Standard signal analysis methods often neglect the reflection contribution when assessing Q values from seismic data. We have developed an a...

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Veröffentlicht in:	Journal of geophysics and engineering 2020-10, Vol.17 (5), p.838-851
Hauptverfasser:	Ker, Stephan, Le Gonidec, Yves
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Sprache:	eng
Schlagworte:	Earth Sciences Geophysics Sciences of the Universe
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container_title	Journal of geophysics and engineering
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creator	Ker, Stephan Le Gonidec, Yves
description	Abstract A varying Q factor with depth induces modifications of seismic wave features due to anelastic propagation but also reflections at the discontinuities. Standard signal analysis methods often neglect the reflection contribution when assessing Q values from seismic data. We have developed an analytical quantification of the cumulative effects of both the propagation and reflection contributions by considering Kjartansson's model and a seismic plane wave at normal incidence on a step-like discontinuity. We show that the cumulative effects are equivalent to a frequency filter characterised by a bandform and phase that both depend on the ratio between the elastic and anelastic contrasts. When considering this filter applied to a Ricker wavelet, we establish an analytical expression of the peak-frequency attribute as a function of propagation and reflection properties. We demonstrate that this seismic attribute depends on the anelastic contrast, which cannot be neglected when assessing Q factors: the error in Q estimate is not linearly dependent on the anelastic contrast and we establish an analytical expression for the case where this contrast is weak. An unexpected phenomenon for a step-like interface is an increase in the peak frequency that is observed when the anelastic and elastic contrasts have opposite signs, with a constraint on the anelastic propagation properties. This behaviour allows for assessment of the elastic and anelastic parameters.
doi_str_mv	10.1093/jge/gxaa033
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subjects	Earth Sciences Geophysics Sciences of the Universe
title	Filtering of a Ricker wavelet induced by anelastic seismic wave propagation and reflection
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