We address the electromagnetic induction problem for fully 3D geologic media and present a solution to the governing Maxwell equations based on a power series expansion. The coefficients in the series are computed using the adjoint method assuming an underlying homogeneous reference model. These solutions are available analytically for point dipole source terms and lead to rapid calculation of the expansion coefficients. First order solutions are presented for a model study in petroleum geophysics composed of a multi-component induction sonde proximal to a fault within a compartmentalized hydrocarbon reservoir
Electromagnetic methods are of particular importance in geophysics as they provide a unique view of...
Numerical methods are presented for characterizing the wideband responses of conducting objects to e...
In oil and gas production environments, controlled-source electromagnetics can be used to aid brownf...
A 3-D finite-element solution has been used to solve controlled-source electromagnetic (EM) inductio...
Over many years, induction logging systems have been used to create well formation logs. The major d...
3-D electromagnetic (EM) studies of the Earth have advanced significantly over the past decade. Desp...
The first author acknowledges the RISE Horizon 2020 European Project GEAGAM (644202) for the travel ...
Electromagnetic induction by a magnetic dipole located above a dipping interface is of relevance to ...
Three-dimensional (3D) geophysical imaging is now receiving considerable attention for electrical co...
A new method is presented for numerically solving the equations of electromagnetic induction in cond...
We have developed a generalized and stable surface integral formula for 3-D uniform inducing field a...
We present a novel global 3-D electromagnetic (EM) inverse solution that allows to work in a unified...
In petroleum production and exploration, having good information about a hydrocarbon reservoir is pa...
A new method is presented for numerically solving the equations of electromagnetic induction in cond...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Earth, Atmospheric and Planetary Sci...
Electromagnetic methods are of particular importance in geophysics as they provide a unique view of...
Numerical methods are presented for characterizing the wideband responses of conducting objects to e...
In oil and gas production environments, controlled-source electromagnetics can be used to aid brownf...
A 3-D finite-element solution has been used to solve controlled-source electromagnetic (EM) inductio...
Over many years, induction logging systems have been used to create well formation logs. The major d...
3-D electromagnetic (EM) studies of the Earth have advanced significantly over the past decade. Desp...
The first author acknowledges the RISE Horizon 2020 European Project GEAGAM (644202) for the travel ...
Electromagnetic induction by a magnetic dipole located above a dipping interface is of relevance to ...
Three-dimensional (3D) geophysical imaging is now receiving considerable attention for electrical co...
A new method is presented for numerically solving the equations of electromagnetic induction in cond...
We have developed a generalized and stable surface integral formula for 3-D uniform inducing field a...
We present a novel global 3-D electromagnetic (EM) inverse solution that allows to work in a unified...
In petroleum production and exploration, having good information about a hydrocarbon reservoir is pa...
A new method is presented for numerically solving the equations of electromagnetic induction in cond...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Earth, Atmospheric and Planetary Sci...
Electromagnetic methods are of particular importance in geophysics as they provide a unique view of...
Numerical methods are presented for characterizing the wideband responses of conducting objects to e...
In oil and gas production environments, controlled-source electromagnetics can be used to aid brownf...