Accessing new avenues of photonic bandgaps using two-dimensional non-Moiré geometries

R. Rachel Darthy; C. Venkateswaran; V. Subramanian; Zhengbiao Ouyang; N. Yogesh

doi:10.1038/s41598-023-44385-z

Scientific Reports (Oct 2023)

Accessing new avenues of photonic bandgaps using two-dimensional non-Moiré geometries

R. Rachel Darthy,
C. Venkateswaran,
V. Subramanian,
Zhengbiao Ouyang,
N. Yogesh

Affiliations

R. Rachel Darthy: Department of Nuclear Physics, School of Physical Sciences, University of Madras
C. Venkateswaran: Department of Nuclear Physics, School of Physical Sciences, University of Madras
V. Subramanian: Microwave Laboratory, Department of Physics, Indian Institute of Technology Madras
Zhengbiao Ouyang: Terahertz Technical Research Center, College of Physics and Optoelectronic Engineering, Shenzhen University
N. Yogesh: Department of Physics, National Institute of Technology Calicut

DOI: https://doi.org/10.1038/s41598-023-44385-z
Journal volume & issue: Vol. 13, no. 1
pp. 1 – 15

Abstract

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Abstract Photonic crystals (PhC) formed by 2-D non-Moiré geometries are realized in this work. Non-Moiré (NM) tiles are the contours of trigonometric functions that generate exciting shapes and geometries. Photonic bandstructure calculations reveal that 2-D NM geometries exhibit new avenues of photonic bandgaps compared to the regular circular rod-based PhCs. The band structures are anisotropic and show, intriguing orientation-dependent partial bandgaps. A few of the orientation-dependent frequency selective properties of the realized NM geometry-based PhCs are demonstrated using full-wave electromagnetic simulations. The proposed geometries are practically realizable, and in this work, we experimentally demonstrate the fabrication process using the 3-D printing technique for microwave frequencies.

Published in Scientific Reports

ISSN: 2045-2322 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine; Science
Website: https://www.nature.com/srep/

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