Journal of Computational Science Education: Abatement of Computational Issues Associated with Dark Modes in Optical Metamaterials

Abatement of Computational Issues Associated with Dark Modes in Optical Metamaterials

Matthew LePain and Maxim Durach

Volume 7, Issue 1 (April 2016), pp. 39–45

https://doi.org/10.22369/issn.2153-4136/7/1/5

BibTeX

@article{jocse-7-1-5,
  author={Matthew LePain and Maxim Durach},
  title={Abatement of Computational Issues Associated with Dark Modes in Optical Metamaterials},
  journal={The Journal of Computational Science Education},
  year=2016,
  month=apr,
  volume=7,
  issue=1,
  pages={39--45},
  doi={https://doi.org/10.22369/issn.2153-4136/7/1/5}
}

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Optical fields in metamaterial nanostructures can be separated into bright modes, whose dispersion is typically described by effective medium parameters, and dark fluctuating fields. Such combination of propagating and evanescent modes poses a serious numerical complication due to poorly conditioned systems of equations for the amplitudes of the modes. We propose a numerical scheme based on a transfer matrix approach, which resolves this issue for a parallel plate metal-dielectric metamaterial, and demonstrate its effectiveness.