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
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
Cross-gradient Joint Inversion of Gravity and Magnetic Anomaly Data