Electromagnetics Blog Posts
Tracking Performance in the Beautiful Game
The official match ball for the 2026 FIFA World Cup® has sensors embedded in it that allow for real-time tracking and analysis. For fun, we take a look at how to model such sensors with COMSOL Multiphysics®.
Inductive Heating of Temperature-Dependent Magnetic Materials
When modeling induction heating processes, incorporating the nonlinearities of the magnetic materials is necessary for accurate results. Learn how to use the AC/DC Module to include such nonlinearities in your simulations here!
Modeling of Excitations with the Magnetic Field Formulation
Get a quick look at 5 interfaces for modeling time-varying magnetic fields and inductive effects in the AC/DC Module. Then, learn how to use one of them for modeling inductive phenomena.
Modeling Argon Sputtering on a Silicon Surface
Sputtering is used in semiconductor processing to deposit thin, uniform films on substrates. See an example of how COMSOL Multiphysics® can be used to better understand this process.
The Electric Discharge Module Wins Best of Industry Award 2025
The Electric Discharge Module has won a Best of Industry Award 2025 from MM MaschinenMarkt! We celebrate the significance of this recognition.
How to Model the Electroporation of Cell Membranes
Electroporation is used to create pores in cell membranes to allow large molecules, such as pharmaceuticals, to enter the cell. Let’s explore the key mechanisms of cell membrane electroporation.
Modeling Spatial Plasma with Deep Neural Network Surrogates
This blog post introduces a deep neural network surrogate model trained on Boltzmann equation solutions as an efficient method for modeling spatial plasma.
Simulating a Valveless Micropump Mechanism
Valveless micropumps are integral to many microfluidic systems. Simulation can be used to study the fluid–structure interaction occurring in these components to improve their performance.
