Insight into the modeling of seismic waves for detection of underground cavities
This work provides a validation step for numerical modeling tools used in verifying compliance with the Comprehensive Nuclear Test Ban Treaty.
The paper compares 3D numerical simulations of seismic waves using the discontinuous Galerkin Spectral Element Code SPEED with an analytic solution to improve detection of underground cavities for nuclear test monitoring. The results validate the accuracy of the numerical model.
Motivated by the need to detect an underground cavity within the procedure of an On-Site-Inspection (OSI), of the Comprehensive Nuclear Test Ban Treaty Organization, the aim of this paper is to present results on the comparison of our numerical simulations with an analytic solution. The accurate numerical modeling can facilitate the development of proper analysis techniques to detect the remnants of an underground nuclear test. The larger goal is to help set a rigorous scientific base of OSI and to contribute to bringing the Treaty into force. For our 3D numerical simulations, we use the discontinuous Galerkin Spectral Element Code SPEED jointly developed at MOX (The Laboratory for Modeling and Scientific Computing, Department of Mathematics) and at DICA (Department of Civil and Environmental Engineering) of the Politecnico di Milano.