Electromagnetics Blog Posts
Model Cables and Transmission Lines in COMSOL Multiphysics
Learn how to compute the parameters of a coaxial cable from a COMSOL Multiphysics® simulation of the electromagnetic fields.
Piezoelectric Materials: Applying the Standards
Learn how to set up the orientation of a piezoelectric crystal, specifically an AT cut quartz plate, within both the IRE 1949 standard and the IEEE 1978 standard.
Study Radiofrequency Tissue Ablation Using Simulation
Killing cancerous cells, shrinking collagen, alleviating pain. These are just some of the medical purposes of radiofrequency tissue ablation, a procedure that relies on targeted heat.
Calculating the Emission Spectra from Common Light Sources
We use COMSOL Multiphysics® to calculate the emission spectra of 4 common light sources: natural daylight, incandescent light bulbs, fluorescent light bulbs, and LED bulbs.
Explaining the Pepper’s Ghost Illusion with Ray Optics
Pepper’s Ghost, the famous optical illusion used in theater and “hologram” concert performances, can be explained using ray optics. Learn more and see our homemade Pepper’s Ghost projector.
Model Magnetic Materials in the Frequency Domain with an App
Easily convert B-H or H-B curves into effective B-H or H-B curves using the Effective Nonlinear Magnetic Curves Calculator simulation app.
Parade Technologies Improves Workflow Efficiency with Apps
Researchers at Parade Technologies create simulation apps and distribute them to colleagues — saving time and more effectively communicating with their customers as a result.
Simulation Improves Electromagnetic IED Detection Systems
To better understand the ground-penetrating radar technique and improve its accuracy for detecting landmines and other IEDs, researchers studied electromagnetic detection for subsurface objects.