Click on the Title, Author, or Picture to Open an Entry
Displaying entries 1-10 out of 58.
![]() |
Enlarged GSTCs simulations in the frequency domain |
![]() ![]() ![]() ![]() ![]() |
This archive provide the 2D and 3D models used in our paper "Stable GSTC formulation for Maxwell’s equations" (submitted) Nicolas Lebbe, Kim Pham, Agnès... |
![]() |
Micromagnetics Module for COMSOL Multiphysics |
![]() ![]() ![]() ![]() ![]() |
The dynamics of magnetization in magnets are described by micromagnetic theory, governed by the Landu–Lifshitz–Gilbert equations. We built a customized "Micromagnetics Module" using the Physics... |
![]() |
Chirality of plasmonic structure
Yuan Zhiyi, Nanyang Technological University |
![]() ![]() ![]() ![]() ![]() |
Circular dichroism is useful in chirality sensing. This archive provide the 3D models for calculating circular dichroism of plasmonic chiral structure. |
![]() |
Elastic Relaxation of Pre-stressed Bilayer Clamped Only At One Edge
Peter Cendula, Institute of Aurel Stodola |
![]() ![]() ![]() ![]() ![]() |
In recent decade, the principle of bimetal bending was exploited in the field of thin films. Rolled-up micro- to nanotubes with multiple windings were obtained with this technology as well as... |
![]() |
Classic DLVO Equivalent Sphere in COMSOL: Derjaguin Approximation
Allan Gomez, Chonbuk National University |
![]() ![]() ![]() ![]() ![]() |
The interaction energies of colloids according to Classic DLVO based on the Derjaguin Approximation. The Classic DLVO consists of the non-retarded Attractive van der Waals interaction and the... |
![]() |
Conf EU 2020 Simple stress concentration examples
Ivar KJELBERG, CSEM SA (Switzerland) |
![]() ![]() ![]() ![]() ![]() |
The 4 models, with certainly perfectible Apps, are to illustrate the stress concentrations effects for structural interfaces. They allow to adapt the discretisation and the mesh refinement, as... |
![]() |
Numerical modeling of active thermo-plasmonics experiments
Giuseppe Emanuele Lio, CNR-Nanotec and Unical, Univeristy of Calabria, Rende, Cosenza |
![]() ![]() ![]() ![]() ![]() |
In this tool, we present a simple and robust numerical method able to predict, with high accuracy, the photo-thermal effects occurring for a gold nanoparticles arrangement under externally applied... |
![]() |
multipole decomposition of dielectric nanoparticles in an array |
![]() ![]() ![]() ![]() ![]() |
These files of COMSOL and MATLAB make the calculation of the electromagnetic fields for a hexagonal array of Silicon hemispheres over a dielectric (mesoporous titania) array of cylinders with the... |
![]() |
Litz Wire Losses with FEM and MATLAB
Thomas Guillod, ETH Zurich, Power Electronic Systems Laboratory |
![]() ![]() ![]() ![]() ![]() |
This MATLAB tool extracts the losses of a litz wire winding from the field patterns. The losses are computed in the frequency domain with Bessel functions. The field patterns can be extracted with... |
![]() |
Litz Wire Homogenization with COMSOL and MATLAB
Thomas Guillod, ETH Zurich, Power Electronic Systems Laboratory |
Not rated
|
This COMSOL and MATLAB tool extracts homogenized material parameters for a litz wire. This means that a complex litz wire, which is composed of many strands, can be replaced with a homogeneous... |