Dipole Cluster Inspector – Version 2.1.0Numerical Exploration of Dipole-Dipole Interactions The dipole-dipole interaction plays a crucial role in the cohesion of matter. Due to the mathematical equivalence between electric and magnetic dipole interactions, this fundamental physical phenomenon can be explored experimentally using magnetic spheres. The Dipole Cluster Inspector (dipole_cluster_inspector.py) provides an interactive environment for the numerical investigation of magnetic dipole systems. It enables the detailed analysis of: Dipole arrangements Magnetic field distributions Binding energies Mutual interactions for clusters comprising more than 500 magnetic dipoles. What's new in Version 2.1.0: ✦ Spherical harmonic analysis of the scalar magnetic potential ✦ Two new interactive 3D visualization windows for enhanced spatial insight ✦ Improved handling of line dipoles and correction of previous issues This tool is designed for scientific and educational purposes, enabling the study of dipole interactions in fundamental cluster geometries, with particular emphasis on regular polyhedra.

To begin, unzip the archive dipole_cluster_inspector_2_1_0.zip.The package contains 9 files in total. To launch the application, run the main program: dipole_cluster_inspector.py. Make sure that this file remains in the same directory as the other 8 source files, as they are required for the program to function properly. See “readme.pdf” for explanations of the widget functions (a version with links is here).

If you are particularly interested in the design of modified Halbach rings for generating homogeneous magnetic fields, you may also consider using the software“Halbach_two_point_oh: Optimize Uniform Fields with Permanent Magnet Arrays”https://doi.org/10.5281/zenodo.15006677