A 3D electromagnetic FDTD simulator written in Python with optional GPU support
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Updated
Sep 22, 2024 - Python
A 3D electromagnetic FDTD simulator written in Python with optional GPU support
Generalized data analysis workflow via a consistent easy to use interface.
Simulation of electric and magnetic fields and particle tracking
Electric field lines and equipotentials using Runge-Kutta methods, including adaptive ones
Projects For The Finite Element Method Lesson And The Exercise Answers.
Orthogonal Multipole Magnetic Basis Vectors - Complete orthogonal vector basis with accurate field-line mapping of electric fields and ion drifts within multipole magnetic fields
Visualisation and analysis of electromagnetic fields.
Calculate electric fields, magnetic fields, and space potentials for transmission lines.
Electric Field Integral Equation (EFIE) numerical solver for 2D arbitrary and inhomogeneous objects with cylindrical symmetry.
Visualizing Electromagnetic Propagation using C++, OpenGL: Explore the fascinating classical world of electromagnetic waves through 2D simulations and visualizations powered by larmour delayed potential in C++ with OpenGL graphics.
Package for the calculating electric fields and ESP in molecular systems.
C++ application which renders the field lines of line charges using OpenGL.
Realtime electric field lines visualization for charged punctual particles
Rice Adaptive Particle Tracer
Yet Another Earthquake Project from the team EGAL.
This is an extension to the final project for Tec de Monterrey's F1013B course: Computational Modeling of Electrical Systems. The project consists on simulating an Inkjet printer, which charges ink droplets electrically so that they get deflected by 2 electric plates and land on a desired location on a piece of paper.
OpenDEP View is a visualization and spectra generation software for Dielectrophoresis (DEP) experiments. It allows users to view and generate DEP spectra based on specific parameters. The program currently supports the homogeneous particle model and single-shell model, with ongoing development for the two-shell model.
Simulating total electric field and total magnetic field in a medium after oblique incidence of electromagnetic wave on a conducting plate
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