Interband polaritonics with topological insulators
Interband polaritonics with topological insulators
Subwavelength nanostructures in metallic platforms provide an efficient avenue to engineer light below the diffraction limit due to resonances that arise from the excitation of free charge carriers. A similar response may be elicited from exotic materials such as topological insulators owing to the excitation of interband polaritonic transitions above the band gap. The resulting negative values for the real part of the dielectric function is typically confined to the visible part of the spectrum, thus restricting their usability. By fabricating nanostructures into topological insulator crystals belonging to the Bi2xSb2(1 x)Te3ySe3(1 y) (BSTS) family, we show that this is not the case, with nanostructured resonances persisting well beyond the region of negative material permittivities. Counterintuitively, characteristics such as nature of the resonant mode and surface wave propagation length remain unaffected across regions of negative and positive permittivities.
Krishnamoorthy, Harish N.S.
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Adamo, Giorgio
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Hütt, Felix
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Yin, Jun
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Tian, Jingyi
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Dubrovkin, Alexander
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Zheludev, Nikolai
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Soci, Cesare
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Giessen, Harold
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2021
Krishnamoorthy, Harish N.S.
87456c53-9077-4ccf-80b9-44470ad845b9
Adamo, Giorgio
8c4da92b-f849-42d4-99c8-b0eb4ba1c73a
Hütt, Felix
34787641-b91a-4c0b-a655-a9ac7a3acfee
Yin, Jun
e2bff3ef-5796-4b1a-99f8-a49415c77af1
Tian, Jingyi
35f2c116-9f84-4dc8-8edd-651656b1160b
Dubrovkin, Alexander
fa0e6582-e26b-4881-a89e-fe091fac5753
Zheludev, Nikolai
32fb6af7-97e4-4d11-bca6-805745e40cc6
Soci, Cesare
6c86324e-2968-4e90-9436-4a92a4b26cec
Giessen, Harold
6b6c608f-99ab-48f7-81a5-a7cc21845e87
Krishnamoorthy, Harish N.S., Adamo, Giorgio, Hütt, Felix, Yin, Jun, Tian, Jingyi, Dubrovkin, Alexander, Zheludev, Nikolai, Soci, Cesare and Giessen, Harold
(2021)
Interband polaritonics with topological insulators.
Materials for Humanity, Singapore, Singapore, Singapore.
(doi:10.48448/93a6-fb36).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Subwavelength nanostructures in metallic platforms provide an efficient avenue to engineer light below the diffraction limit due to resonances that arise from the excitation of free charge carriers. A similar response may be elicited from exotic materials such as topological insulators owing to the excitation of interband polaritonic transitions above the band gap. The resulting negative values for the real part of the dielectric function is typically confined to the visible part of the spectrum, thus restricting their usability. By fabricating nanostructures into topological insulator crystals belonging to the Bi2xSb2(1 x)Te3ySe3(1 y) (BSTS) family, we show that this is not the case, with nanostructured resonances persisting well beyond the region of negative material permittivities. Counterintuitively, characteristics such as nature of the resonant mode and surface wave propagation length remain unaffected across regions of negative and positive permittivities.
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Published date: 2021
Venue - Dates:
Materials for Humanity, Singapore, Singapore, Singapore, 2021-07-07
Identifiers
Local EPrints ID: 457920
URI: http://eprints.soton.ac.uk/id/eprint/457920
PURE UUID: 4c8bc3b5-8116-4b76-9bff-3caaf79f96e0
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Date deposited: 22 Jun 2022 16:41
Last modified: 17 Mar 2024 02:39
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Contributors
Author:
Harish N.S. Krishnamoorthy
Author:
Giorgio Adamo
Author:
Felix Hütt
Author:
Jun Yin
Author:
Jingyi Tian
Author:
Alexander Dubrovkin
Author:
Nikolai Zheludev
Author:
Cesare Soci
Author:
Harold Giessen
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