In the two-dimensional Cartesian coordinate system, a transient electromagnetic forward algorithm of the magnetic moment in arbitrary direction is developed to simulate the electromagnetic response characteristics of the whole space geoelectric model. The magnetic moment ${\mathbf {M}}_{r}$ in arbitrary transmitting direction is decomposed into ${\mathbf {M}}_{x}$ and ${\mathbf {M}}_{y}$ . The transient electromagnetic fields excited by the magnetic moments ${\mathbf {M}}_{x}$ and ${\mathbf {M}}_{y}$ are forwarded separately, and then synthesized to obtain the electric field excited by the magnetic moment ${\mathbf {M}}_{r}$ . The time domain iteration’s results of the uniform whole space are compared with the analytical so...
Mine water inrush poses a serious threat to the safe production of coal mines in China. The transie...
The method of spherical elementary current systems provides an accurate modelling of the horizontal...
copyrighted by American Geophysical UnionThe current satellite magnetic missions offer new\ud opport...
In general, the time derivative of vertical magnetic field is considered only in the data interpreta...
Mine water inrush stays as one of the major disasters in coalmine production and construction. As on...
Time-varying primary magnetic fields generated outside Earth by the magnetospheric ring current indu...
In previous works, we presented 2-D and 3-D magnetotelluric modelling methods based on Rayleigh-Four...
If a magnetic dipole is placed above the surface of the earth, the electromagnetic induction (EMI) e...
We attempted to develop a direct time-domain, finite-difference solution for the electromag-netic re...
We present a new approach for 2-D magnetotelluric forward numerical modelling in contrast to traditi...
The ultimate goal of this research was to invert geophysical magnetic data to recover three dimensio...
Copyright © 2005 Australian Society of Exploration GeophysicistsThe Sub-Audio Magnetics (SAM) method...
The method of moments (MoM) is a numerical technique used to solve integral equations. The MoM has b...
A time-domain, spectral finite-element approach is presented for computing the electromag-netic indu...
In practical exploration, the complex and diverse topographic effects are important for the processi...
Mine water inrush poses a serious threat to the safe production of coal mines in China. The transie...
The method of spherical elementary current systems provides an accurate modelling of the horizontal...
copyrighted by American Geophysical UnionThe current satellite magnetic missions offer new\ud opport...
In general, the time derivative of vertical magnetic field is considered only in the data interpreta...
Mine water inrush stays as one of the major disasters in coalmine production and construction. As on...
Time-varying primary magnetic fields generated outside Earth by the magnetospheric ring current indu...
In previous works, we presented 2-D and 3-D magnetotelluric modelling methods based on Rayleigh-Four...
If a magnetic dipole is placed above the surface of the earth, the electromagnetic induction (EMI) e...
We attempted to develop a direct time-domain, finite-difference solution for the electromag-netic re...
We present a new approach for 2-D magnetotelluric forward numerical modelling in contrast to traditi...
The ultimate goal of this research was to invert geophysical magnetic data to recover three dimensio...
Copyright © 2005 Australian Society of Exploration GeophysicistsThe Sub-Audio Magnetics (SAM) method...
The method of moments (MoM) is a numerical technique used to solve integral equations. The MoM has b...
A time-domain, spectral finite-element approach is presented for computing the electromag-netic indu...
In practical exploration, the complex and diverse topographic effects are important for the processi...
Mine water inrush poses a serious threat to the safe production of coal mines in China. The transie...
The method of spherical elementary current systems provides an accurate modelling of the horizontal...
copyrighted by American Geophysical UnionThe current satellite magnetic missions offer new\ud opport...