Abstract
Abstract. With the prospects of seismic equipment being able to measure rotational ground motions in a wide frequency and amplitude range in the near future, we engage in the question of how this type of ground motion observation can be used to solve the seismic source inverse problem. In this paper, we focus on the question of whether finite-source inversion can benefit from additional observations of rotational motion. Keeping the overall number of traces constant, we compare observations from a surface seismic network with 44 three-component translational sensors (classic seismometers) with those obtained with 22 six-component sensors (with additional three-component rotational motions). Synthetic seismograms are calculated for known finite-source properties. The corresponding inverse problem is posed in a probabilistic way using the Shannon information content to measure how the observations constrain the seismic source properties. We minimize the influence of the source receiver geometry around the fault by statistically analyzing six-component inversions with a random distribution of receivers. Since our previous results are achieved with a regular spacing of the receivers, we try to answer the question of whether the results are dependent on the spatial distribution of the receivers. The results show that with the six-component subnetworks, kinematic source inversions for source properties (such as rupture velocity, rise time, and slip amplitudes) are not only equally successful (even that would be beneficial because of the substantially reduced logistics installing half the sensors) but also statistically inversions for some source properties are almost always improved. This can be attributed to the fact that the (in particular vertical) gradient information is contained in the additional motion components. We compare these effects for strike-slip and normal-faulting type sources and confirm that the increase in inversion quality for kinematic source parameters is even higher for the normal fault. This indicates that the inversion benefits from the additional information provided by the horizontal rotation rates, i.e., information about the vertical displacement gradient.
Highlights
The inversion for kinematic finite-source models of earthquakes plays an important role in the research of earthquake dynamics and the general understanding of earthquakes
If we compute the total energy in all three rotational components measured at all stations, the energy of all rotation rate signals in the horizontal components makes up a very large part of the total energy measured at all stations for the dip-slip fault (57 % of the total energy), whereas the strike-slip fault features the highest energy ratio in the vertical component signals (40 % of the total energy for rotations around both horizontal axes), but horizontal rotation only contributes 20 % of the total energy
Non-uniqueness, which is an imminent problem in inversion theory, has been significantly reduced by the incorporation of synthetic rotational ground motion data
Summary
The inversion for kinematic finite-source models of earthquakes plays an important role in the research of earthquake dynamics and the general understanding of earthquakes. Finite-source inversion of earthquakes is non-unique due to the infinite-dimensional inverse problem, which we try to solve with a finite number of observations. A discretization of the fault area by subfaults converts this problem to a finite size inversion, but this does not completely remove the inherent non-uniqueness of the problem. Noisy data, sparse geographical coverage of seismic stations, the non-linearity of the forward problem, and possible unrealistic simplifications in the parametrization of the fault contribute to the non-uniqueness. M. Reinwald et al.: Improved finite-source inversion through joint measurements ω
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