simpeg.electromagnetics.time_domain.Simulation3DMagneticFluxDensity.getAdiag#

Simulation3DMagneticFluxDensity.getAdiag(tInd)[source]#

Diagonal system matrix for the given time-step index.

This method returns the diagonal system matrix for the time-step index provided:

\[\mathbf{A}_k = \mathbf{C M_{e\sigma}^{-1} C^T M_{f\frac{1}{\mu}}} + \frac{1}{\Delta t_k} \mathbf{I}\]

where

\(\Delta t_k\) is the step length
\(\mathbf{I}\) is the identity matrix
\(\mathbf{C}\) is the discrete curl operator
\(\mathbf{M_{e \sigma}}\) is the conductivity inner-product matrix on edges
\(\mathbf{M_{f\frac{1}{\mu}}}\) is the inverse permeability inner-product matrix on faces

See the Notes section of the doc strings for Simulation3DMagneticFluxDensity for a full description of the formulation.

Parameters:

Returns: