Ultrahigh‐ Q Resonance in Bound States in the Continuum–Enabled Plasmonic Terahertz Metasurface

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The study of optical resonators is of significant importance in terms of their ability to confine light in optical devices. A major drawback of optical resonators is the phenomenon of light emission due to their limited capacity for light confinement. Bound states in the continuum are gaining significant attention in the realization of optical devices due to their unique ability for reducing light scattering via interference mechanisms. This process can potentially suppress scattering, leading to improved optical performance. Using this concept, a metasurface having two elliptical silicon (Si) resonators nonidentically angled to create an out‐of‐plane asymmetry is studied. Various parameters are optimized by employing a genetic algorithm (GA) to subsequently achieve a high‐Q factor at terahertz frequencies. Herein, the device is fabricated using a novel method, and a thick high‐index resonator is achieved. Terahertz measurements are carried out to validate the results. It is indicated in the experimental results that plasmons appear at the top surface of the metasurface and create strong sharp resonances that are sensitive to the external environment. Owing to strong field confinement ability, and high‐Q factor, the metasurface is sensitive to its surrounding environment and can be essentially employed in terahertz sensing applications.

Location
Deutsche Nationalbibliothek Frankfurt am Main
Extent
Online-Ressource
Language
Englisch

Bibliographic citation
Ultrahigh‐ Q Resonance in Bound States in the Continuum–Enabled Plasmonic Terahertz Metasurface ; day:28 ; month:06 ; year:2023 ; extent:8
Advanced photonics research ; (28.06.2023) (gesamt 8)

Creator
Islam, Md Saiful
Upadhyay, Aditi
Ako, Rajour Tanyi
Lawrence, Nicholas P.
Sultana, Jakeya
Ranjan, Abhishek
Ng, Brian Wai-Him
Tansu, Nelson
Bhaskaran, Madhu
Sriram, Sharath
Abbott, Derek

DOI
10.1002/adpr.202300121
URN
urn:nbn:de:101:1-2023062915011435795105
Rights
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
Last update
14.08.2025, 10:51 AM CEST

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Associated

  • Islam, Md Saiful
  • Upadhyay, Aditi
  • Ako, Rajour Tanyi
  • Lawrence, Nicholas P.
  • Sultana, Jakeya
  • Ranjan, Abhishek
  • Ng, Brian Wai-Him
  • Tansu, Nelson
  • Bhaskaran, Madhu
  • Sriram, Sharath
  • Abbott, Derek

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