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...
Dynamic earthquake source inversions aim to determine the spatial distribution of initial stress and...
Our understanding of earthquake sources is limited by the availability and the quality of observatio...
Our current understanding of the Earth’s interior structure and processes is limited to observations...
With the prospects of seismic equipment being able to measure rotational ground motions in a wide fr...
The effect of network density and geometric distribution on kinematic non-linear source inversion is...
When earthquakes occur, the ground does not only shake laterally and vertically but also undergoes r...
Finite-fault earthquake source inversions infer the (time-dependent) displacement on the rupture su...
The scientific investigation of the solid Earth's complex processes, including their interactions wi...
Abstract The recent availability of accurate observations of rotational ground mo-tions has reopened...
In conventional multicomponent seismic exploration, the wavefield is recorded by measuring translati...
Seismic moment tensors are an important tool and input variable for many studies in the geosciences....
The ill-posed nature of earthquake source estimation derives from several factors including the qual...
Recent progress in rotational sensor technology has made it possible to directly measure rotational ...
We propose a novel approach to seismic tomography based on the joint processing of translation, st...
We explore the possibility of determining the actual fault plane of an earthquake from the inversion...
Dynamic earthquake source inversions aim to determine the spatial distribution of initial stress and...
Our understanding of earthquake sources is limited by the availability and the quality of observatio...
Our current understanding of the Earth’s interior structure and processes is limited to observations...
With the prospects of seismic equipment being able to measure rotational ground motions in a wide fr...
The effect of network density and geometric distribution on kinematic non-linear source inversion is...
When earthquakes occur, the ground does not only shake laterally and vertically but also undergoes r...
Finite-fault earthquake source inversions infer the (time-dependent) displacement on the rupture su...
The scientific investigation of the solid Earth's complex processes, including their interactions wi...
Abstract The recent availability of accurate observations of rotational ground mo-tions has reopened...
In conventional multicomponent seismic exploration, the wavefield is recorded by measuring translati...
Seismic moment tensors are an important tool and input variable for many studies in the geosciences....
The ill-posed nature of earthquake source estimation derives from several factors including the qual...
Recent progress in rotational sensor technology has made it possible to directly measure rotational ...
We propose a novel approach to seismic tomography based on the joint processing of translation, st...
We explore the possibility of determining the actual fault plane of an earthquake from the inversion...
Dynamic earthquake source inversions aim to determine the spatial distribution of initial stress and...
Our understanding of earthquake sources is limited by the availability and the quality of observatio...
Our current understanding of the Earth’s interior structure and processes is limited to observations...