geoana.em.static.PointCurrentWholeSpace.magnetic_field#
- PointCurrentWholeSpace.magnetic_field(xyz)#
Compute the magnetic field for the static current-carrying wire segments.
- Parameters:
- xyz(…, 3) numpy.ndarray xyz
gridded locations at which we are calculating the magnetic field
- Returns:
- (…, 3) numpy.ndarray
The magnetic field at each observation location in H/m.
Examples
Here, we define a horizontal square loop and plot the magnetic field on the xz-plane that intercepts at y=0.
>>> from geoana.em.static import LineCurrentWholeSpace >>> from geoana.utils import ndgrid >>> from geoana.plotting_utils import plot2Ddata >>> import numpy as np >>> import matplotlib.pyplot as plt
Let us begin by defining the loop. Note that to create an inductive source, we closed the loop.
>>> x_nodes = np.array([-0.5, 0.5, 0.5, -0.5, -0.5]) >>> y_nodes = np.array([-0.5, -0.5, 0.5, 0.5, -0.5]) >>> z_nodes = np.zeros_like(x_nodes) >>> nodes = np.c_[x_nodes, y_nodes, z_nodes] >>> simulation = LineCurrentWholeSpace(nodes)
Now we create a set of gridded locations and compute the magnetic field.
>>> xyz = ndgrid(np.linspace(-1, 1, 50), np.array([0]), np.linspace(-1, 1, 50)) >>> H = simulation.magnetic_field(xyz)
Finally, we plot the magnetic field.
>>> fig = plt.figure(figsize=(4, 4)) >>> ax = fig.add_axes([0.15, 0.15, 0.75, 0.75]) >>> plot2Ddata(xyz[:, [0, 2]], H[:, [0, 2]], ax=ax, vec=True, scale='log', ncontour=25) >>> ax.set_xlabel('X') >>> ax.set_ylabel('Z') >>> ax.set_title('Magnetic field')
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