A 3D electromagnetic FDTD simulator written in Python with optional GPU support
Forward modeling, inversion, and processing gravity and magnetic data
This tool numerically solves for the magnetic field around an arbitrarily shaped coil specified by the user, in a discrete and finite volume surrounding the coil.
Routines to plot and analyze magnetic fields of planets in our solar system
Algorithms for processing and interpreting potential-field data in Geophysics
Orthogonal Multipole Magnetic Basis Vectors - Complete orthogonal vector basis with accurate field-line mapping of electric fields and ion drifts within multipole magnetic fields
Agent-based simulation of social interaction (Social Force Model and Self-Propelled Brownian Particles)
Visualization of cosmic rays propagating through the Earth's magnetic field
Software to determine line of sight magnetic fields of molecular clouds (Tahani et al. 2018)
Python software to design current-carrying coils inside magnetically shielded cylinders to generate arbitrary static magnetic field profiles.
Python interface for Zgoubi
A simple Physics Informed Neural Network (PINN) implementation in TensorFlow 2 for magnetic field mapping using finite amount of magnetic field measurements.
Visualisation and analysis of electromagnetic fields.
Calculate electric fields, magnetic fields, and space potentials for transmission lines.
Compressive Sensing and Optimization Framework to reconstruct Faraday Depth signals
A high level Line Integral Convolution (LIC) library for Python, including post-processing and visualization
A minimal Line Integral Convolution extension for NumPy, written in Rust
Here, I discussed how can we visualize the magnetic field due to a current using the Biot’s-Savart law. I also added the Python codes, I used to generate the magnetic field plots for different conditons of current configurations.
PyQt5 based program with matplotlib for plotting; plots inplane magnetic field distribution above a rectangular wire with current
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