Blog Posts Tagged Semiconductor Module
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Modeling a THz Photoconductive Antenna with COMSOL Multiphysics®
Photoconductive antennas are commonly used in terahertz engineering. Learn how these devices work and how to model one with the Semiconductor Module and RF Module.
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Can COMSOL Multiphysics® Solve the Hydrogen Atom?
In this blog post, you’ll get an introduction to quantum mechanics and learn how to model the hydrogen atom.
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Extracting Specific Contact Resistivity with a Benchmark Model
You can now add contact resistance to metal contacts using the Semiconductor Module. In this blog post, we’ll explore a benchmark model that takes advantage of this new functionality.
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Optimizing Solar Cell Designs with a Simulation App
The SolCelSim app, designed by an MSc student at the University of Zilina, enables researchers to simulate solar cell designs, even if they are unfamiliar with simulation software.
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Simulating a Silicon Quantum Dot in a Uniform Magnetic Field
Solar cells, LEDs, displays, photodetectors, and quantum computing are all potential applications of quantum dots, an essential aspect in the field of nanotechnology.
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k • p Method for Strained Wurtzite GaN Band Structure
Model a wide range of semiconductor systems, such as particles with spins and strained wurtzite crystals, using multicomponent wave function functionality in the Schrödinger Equation interface.
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Model Vortex Lattice Formation in a Bose–Einstein Condensate
Bose–Einstein condensation can cause superfluidity, superconductivity, lasers, and trapped dilute cold atoms. When such systems are subjected to rotating perturbation, it forms a vortex lattice.
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Computational Electromagnetics Modeling: Which Module to Use?
If you work with a particular electromagnetic device or application area, you might be wondering which module in the COMSOL product suite is right for you. Keep reading for a comprehensive intro.