Scientific Reports (Mar 2024)

Line-wave waveguide engineering using Hermitian and non-Hermitian metasurfaces

  • Haddi Ahmadi,
  • Zahra Ahmadi,
  • Nasrin Razmjooei,
  • Mohammad Pasdari-Kia,
  • Amirmasood Bagheri,
  • Hamed Saghaei,
  • Kamalodin Arik,
  • Homayoon Oraizi

DOI
https://doi.org/10.1038/s41598-024-56049-7
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 12

Abstract

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Abstract Line waves (LWs) refer to confined edge modes that propagate along the interface of dual electromagnetic metasurfaces while maintaining mirror reflection symmetries. Previous research has both theoretically and experimentally investigated these waves, revealing their presence in the microwave and terahertz frequency ranges. In addition, a comprehensive exploration has been conducted on the implementation of non-Hermitian LWs by establishing the parity-time symmetry. This study introduces a cutting-edge dual-band line-wave waveguide, enabling the realization of LWs within the terahertz and infrared spectrums. Our work is centered around analyzing the functionalities of existing applications of LWs within a specific field. In addition, a novel non-Hermitian platform is proposed. We address feasible practical implementations of non-Hermitian LWs by placing a graphene-based metasurface on an epsilon-near-zero material. This study delves into the advantages of the proposed framework compared to previously examined structures, involving both analytical and numerical examinations of how these waves propagate and the underlying physical mechanisms.

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