Published August 31, 2020 | Version v1.1
Software Open

multipole decomposition of dielectric nanoparticles in an array

Creators

  • 1. ICMAB

Contributors

Project leader:

Researcher:

  • 1. ICMAB

Description

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 same arrangement over a base layer of the dielectric on top a silica substrate.
The multipole decomposition of the particles is made and the surface energy and reflectance are calculated.

If you use these files, please, cite as
Molet, P., Gil-Herrera, L., Garcia-Pomar, J., Caselli, N., Blanco, Á., López, C., & Mihi, A. (2020).
Large area metasurfaces made with spherical silicon resonators, Nanophotonics, 9(4), 943-951.
doi: https://doi.org/10.1515/nanoph-2020-0035

Steps
1. Create a folder called C:\datacomsol\
2. Change the geometric and materials parameters if you want.
3. Run the COMSOL files (v.5.5) (_RF for Radiofrequency module or _WO for Wave optics module).
4. Clear all the tables in Tables.
5. Evaluate all the derived values.
6. Export all the data in Export.
7. run Matlab file (v.2010b).

 

Files

README.txt

Files (2.2 GB)

Name Size Download all
md5:bda55a0cf09eeae4d8abb5395e8e95c2
848.4 MB Download
md5:59e88c8f786ae5e05d473ec912f15491
1.3 GB Download
md5:39ebf16f6e42fe9fd4fff10dfbd5daaa
14.7 kB Download
md5:d8d6d9c506004feced5d37b59ed17a34
1.1 kB Preview Download

Additional details

Funding

European Commission
ENLIGHTMENT - Photonic Electrodes for Enhanced Light Management in Optoelectronic Devices 637116

References

  • Molet, P., Gil-Herrera, L., Garcia-Pomar, J., Caselli, N., Blanco, Á., López, C., & Mihi, A. (2020). Large area metasurfaces made with spherical silicon resonators, Nanophotonics, 9(4), 943-951. doi: https://doi.org/10.1515/nanoph-2020-0035