simpeg.potential_fields.magnetics.Point#
- class simpeg.potential_fields.magnetics.Point(locations, components='tmi', **kwargs)[source]#
Bases:
BaseRx
Magnetic point receiver class for integral formulation
- Parameters:
- locations(
n
, 3)numpy.ndarray
Receiver locations.
- components
str
orlist
of
str
, default: ‘tmi’ Use a
str
for a single component or alist
ofstr
if multiple components are simulated at each location. Component choices are:“tmi” –> total magnetic intensity data (DEFAULT)
“bx” –> x-component of the magnetic field
“by” –> y-component of the magnetic field
“bz” –> z-component of the magnetic field
“bxx” –> x-derivative of the x-component
“bxy” –> y-derivative of the x-component (and visa versa)
“bxz” –> z-derivative of the x-component (and visa versa)
“byy” –> y-derivative of the y-component
“byz” –> z-derivative of the y-component (and visa versa)
“bzz” –> z-derivative of the z-component
“tmi_x”–> x-derivative of the total magnetic intensity data
“tmi_y”–> y-derivative of the total magnetic intensity data
“tmi_z”–> z-derivative of the total magnetic intensity data
- locations(
Notes
If predicting amplitude data, you must set include ‘bx’, ‘by’, and ‘bz’ here, and set is_amplitude_data in the magnetics.Simulation3DIntegral to True.
Attributes
Receiver locations
Number of data.
Universal unique identifier
Methods
eval
(**kwargs)Not implemented for BaseRx
evalDeriv
(**kwargs)Not implemented for BaseRx
getP
(mesh[, projected_grid])Get projection matrix from mesh to receivers
Galleries and Tutorials using simpeg.potential_fields.magnetics.Point
#
Magnetic inversion on a TreeMesh
Magnetic inversion on a TreeMesh
Magnetic Amplitude inversion on a TreeMesh
Cross-gradient Joint Inversion of Gravity and Magnetic Anomaly Data
Forward Simulation of Total Magnetic Intensity Data
Forward Simulation of Gradiometry Data for Magnetic Vector Models
Sparse Norm Inversion for Total Magnetic Intensity Data on a Tensor Mesh