3D finite-difference transient electromagnetic modeling with whole-space initial field

What is it about?

A three-dimensional finite-difference time-domain transient electromagnetic forward modeling method with whole-space initial field is proposed to improve forward efficiency and flexibility. The open-source software WFTEM3D is developed based on this method with two language versions: a FORTRAN code and a MATLAB code. It is applicable to the tunnel model, the non-flat topography model, and the multi-scale model.

Featured Image

Photo by Vincent Tint on Unsplash

Photo by Vincent Tint on Unsplash

Why is it important?

This method has three advantages. First, this method shows that the homogeneous whole-space initial field can be used to simulate the half-space model, that is, this method can be used to simulate both the whole-space model and the half-space model. Second, maybe because homogeneous whole-space initial field spatial variations are smoother near the ground surface than for the half-space case, big mesh growth factors (i.e. the ratio of adjacent grid sizes) of 1.5–3 are allowed, which significantly improves the computational efficiency and facilitates the simulation of the multi-scale model. Third, the approximate initial field can be calculated using a conductivity independent of the model, which facilitates the simulation of the non-flat topography model.

Perspectives