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Selective Near Perfect Light Absorbtion by Graphene Monolayer Using Aperiodic Multilayer Microstructures

Optics 2018-03-14 v1

Abstract

We investigate 1D aperiodic multilayer microstructures in order to achieve near total absorption in preselected wavelengths in a graphene monolayer. Our structures are designed by a genetic optimization algorithm coupled to a transfer matrix code. Coupled mode theory (CMT) analysis, in accordance with transfer matrix method (TMM) results, indicates the existence of a critical coupling in a graphene monolayer for perfect absorptions. Our findings show that the near-total-absorption peaks are highly tunable and can be controlled simultaneously or independently in wide range of wavelengths in the near-infrared and visible. Our proposed approach is metal free and does not require surface texturing or patterning, and can be applied for other two dimensional (2D) materials.

Keywords

Cite

@article{arxiv.1802.01758,
  title  = {Selective Near Perfect Light Absorbtion by Graphene Monolayer Using Aperiodic Multilayer Microstructures},
  author = {Iman Zand and Hamed Dalir and Ray T. Chen and Jonathan P. Dowling},
  journal= {arXiv preprint arXiv:1802.01758},
  year   = {2018}
}

Comments

12 pages, 5 figures

R2 v1 2026-06-23T00:12:22.245Z