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Tunable angle-selective optical transparency induced by photonic topological transition in Dirac semimetals-based hyperbolic metamaterials

Tunable angle-selective optical transparency induced by photonic topological transition in Dirac semimetals-based hyperbolic metamaterials
Tunable angle-selective optical transparency induced by photonic topological transition in Dirac semimetals-based hyperbolic metamaterials

The tunable angle-selective transparency of hyperbolic metamaterials consisting of various multilayers of Dirac semimetal and dielectric materials are theoretically and numerically studied in the terahertz range. Three stack configurations are considered: alternating, sandwiched, and disordered. It is found that the proposed structures exhibit strong optical angular selectivity induced by photonic topological transition for transverse magnetic waves. Interestingly, the topological transition frequency can be flexibly modulated by changing the Fermi energy, temperature, and the releasing time of the Dirac semimetal, as well as the thickness ratio of the dielectric and semimetal layers. It is also noticed that the angular optical transparency properties are independent of the order of the proposed structure even in alternating/disordered/random configurations if the total thickness ratio of the semimetal to dielectric are the same, which makes the properties particularly easy to realize experimentally. The proposed hyperbolic metamaterial structures present a promising opportunity for wavefront engineering, offering crucial properties for applications in private screens, optical detectors, and light manipulation.

1094-4087
23102-23114
Wang, Qin
0aa7280f-31fc-404c-9238-9cc1a8ef46d4
Zhang, Liwei
10fce21c-16d9-4096-b07a-cf2cab1591c0
Cai, Xiaolin
614da135-04e2-43fb-b9ab-ff5b82e24809
Cencillo-Abad, Pablo
7d5103d0-e4d3-431b-ac53-7a20b2128228
Ou, Jun Yu
3fb703e3-b222-46d2-b4ee-75f296d9d64d
Wang, Qin
0aa7280f-31fc-404c-9238-9cc1a8ef46d4
Zhang, Liwei
10fce21c-16d9-4096-b07a-cf2cab1591c0
Cai, Xiaolin
614da135-04e2-43fb-b9ab-ff5b82e24809
Cencillo-Abad, Pablo
7d5103d0-e4d3-431b-ac53-7a20b2128228
Ou, Jun Yu
3fb703e3-b222-46d2-b4ee-75f296d9d64d

Wang, Qin, Zhang, Liwei, Cai, Xiaolin, Cencillo-Abad, Pablo and Ou, Jun Yu (2022) Tunable angle-selective optical transparency induced by photonic topological transition in Dirac semimetals-based hyperbolic metamaterials. Optics Express, 30 (13), 23102-23114. (doi:10.1364/OE.458584).

Record type: Article

Abstract

The tunable angle-selective transparency of hyperbolic metamaterials consisting of various multilayers of Dirac semimetal and dielectric materials are theoretically and numerically studied in the terahertz range. Three stack configurations are considered: alternating, sandwiched, and disordered. It is found that the proposed structures exhibit strong optical angular selectivity induced by photonic topological transition for transverse magnetic waves. Interestingly, the topological transition frequency can be flexibly modulated by changing the Fermi energy, temperature, and the releasing time of the Dirac semimetal, as well as the thickness ratio of the dielectric and semimetal layers. It is also noticed that the angular optical transparency properties are independent of the order of the proposed structure even in alternating/disordered/random configurations if the total thickness ratio of the semimetal to dielectric are the same, which makes the properties particularly easy to realize experimentally. The proposed hyperbolic metamaterial structures present a promising opportunity for wavefront engineering, offering crucial properties for applications in private screens, optical detectors, and light manipulation.

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oe-30-13-23102 - Version of Record
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Accepted/In Press date: 26 May 2022
e-pub ahead of print date: 6 June 2022
Published date: 20 June 2022
Additional Information: Funding. Natural Science Foundation of Anhui Higher Education Institutions of China (KJ2020A0504); National Natural Science Foundation of China (11804082, U1804165); Foundation of Henan Educational Committee (18A140018).
Learn more about Zepler Institute for Photonics and Nanoelectronics research

Identifiers

Local EPrints ID: 471376
URI: http://eprints.soton.ac.uk/id/eprint/471376
DOI: doi:10.1364/OE.458584
ISSN: 1094-4087
PURE UUID: 923013cb-0041-464b-8267-56456d1a828c
ORCID for Jun Yu Ou: ORCID iD orcid.org/0000-0001-8028-6130

Catalogue record

Date deposited: 04 Nov 2022 17:35
Last modified: 18 Mar 2024 03:18

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Contributors

Author: Qin Wang
Author: Liwei Zhang
Author: Xiaolin Cai
Author: Pablo Cencillo-Abad
Author: Jun Yu Ou ORCID iD

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