simpeg.electromagnetics.viscous_remanent_magnetization.sources.MagDipole#

class simpeg.electromagnetics.viscous_remanent_magnetization.sources.MagDipole(receiver_list, location, moment, waveform, **kwargs)[source]#

Bases: BaseSrcVRM

Magnetic dipole source

Parameters:
receiver_listlist of simpeg.electromagnetics.viscous_remanent_magnetization.receivers.Point

VRM receivers

location(3) array_like

source location

moment(3) array_like

dipole moment (mx, my, mz)

waveformsimpeg.electromagnetics.viscous_remanent_magnetization.waveforms.BaseVRMWaveform

VRM waveform

Attributes

location

Source location

moment

Dipole moment (mx, my, mz)

nD

Number of data associated with the source.

nRx

Total number of receiver locations

receiver_list

List of receivers associated with the source

uid

Universal unique identifier

vnD

Vector number of data.

vnRx

Vector number of receiver locations

Methods

getH0(xyz)

Compute inducing field at locations xyz

get_receiver_indices(receivers)

Get indices for a subset of receivers within the source's receivers list.

Galleries and Tutorials using simpeg.electromagnetics.viscous_remanent_magnetization.sources.MagDipole#

Predict Response from a Conductive and Magnetically Viscous Earth

Predict Response from a Conductive and Magnetically Viscous Earth

Method of Equivalent Sources for Removing VRM Responses

Method of Equivalent Sources for Removing VRM Responses

Response from a Homogeneous Layer for Different Waveforms

Response from a Homogeneous Layer for Different Waveforms

Forward Simulation of VRM Response on a Tree Mesh

Forward Simulation of VRM Response on a Tree Mesh

Forward Simulation Including Inductive Response

Forward Simulation Including Inductive Response