High spatial resolution imaging of light localization in hyperuniform disordered patterns of circular air pores in a dielectric slab
High spatial resolution imaging of light localization in hyperuniform disordered patterns of circular air pores in a dielectric slab
Hyperuniform disordered photonic structures are a peculiar category of disordered photonic heterostructures located between random structures and ordered photonic crystals. These materials, thanks to the presence of a photonic bandgap, exhibit the advantages of random and ordered structures since they have been shown to support in a small spatial footprint a high density of Anderson-localized modes, which naturally occur at the bandgap edges with peculiar features like relatively high Q/V ratios. Different localization behaviors have been recently reported in hyperuniform disordered luminescent materials, with a well-established and widely studied design, based on disordered networks. Here, we explore an alternative design, based on circular holes of different sizes hyperuniformely distributed, that we investigate theoretically and experimentally by means of scanning near-field optical microscopy. We report that the spectral features of hyperuniform disordered networks can also be extended to a different design, which, in turn, displays pseudo-photonic bandgaps and light localization. The ability of generating different kinds of hyperuniform disordered photonic systems that share the same theoretical and experimental optical features can largely extend practical potentialities and integration in many optoelectronic applications.
Granchi, Nicoletta
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Spalding, Richard
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Stokkereit, Kris
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Lodde, Matteo
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Petruzzella, Maurangelo
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Otten, Frank V.
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Sapienza, Riccardo
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Fiore, Andrea
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Florescu, Marian
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Intonti, Francesca
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14 June 2023
Granchi, Nicoletta
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Spalding, Richard
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Stokkereit, Kris
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Lodde, Matteo
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Petruzzella, Maurangelo
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Otten, Frank V.
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Sapienza, Riccardo
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Fiore, Andrea
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Florescu, Marian
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Intonti, Francesca
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Granchi, Nicoletta, Spalding, Richard, Stokkereit, Kris, Lodde, Matteo, Petruzzella, Maurangelo, Otten, Frank V., Sapienza, Riccardo, Fiore, Andrea, Florescu, Marian and Intonti, Francesca
(2023)
High spatial resolution imaging of light localization in hyperuniform disordered patterns of circular air pores in a dielectric slab.
Frontiers in Photonics, 4.
(doi:10.3389/fphot.2023.1199411).
Abstract
Hyperuniform disordered photonic structures are a peculiar category of disordered photonic heterostructures located between random structures and ordered photonic crystals. These materials, thanks to the presence of a photonic bandgap, exhibit the advantages of random and ordered structures since they have been shown to support in a small spatial footprint a high density of Anderson-localized modes, which naturally occur at the bandgap edges with peculiar features like relatively high Q/V ratios. Different localization behaviors have been recently reported in hyperuniform disordered luminescent materials, with a well-established and widely studied design, based on disordered networks. Here, we explore an alternative design, based on circular holes of different sizes hyperuniformely distributed, that we investigate theoretically and experimentally by means of scanning near-field optical microscopy. We report that the spectral features of hyperuniform disordered networks can also be extended to a different design, which, in turn, displays pseudo-photonic bandgaps and light localization. The ability of generating different kinds of hyperuniform disordered photonic systems that share the same theoretical and experimental optical features can largely extend practical potentialities and integration in many optoelectronic applications.
Text
fphot-04-1199411
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Published date: 14 June 2023
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Local EPrints ID: 501236
URI: http://eprints.soton.ac.uk/id/eprint/501236
ISSN: 2673-6853
PURE UUID: 6bdecbb9-96de-4915-9170-78ffb458e216
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Date deposited: 27 May 2025 18:04
Last modified: 22 Aug 2025 02:46
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Contributors
Author:
Nicoletta Granchi
Author:
Richard Spalding
Author:
Kris Stokkereit
Author:
Matteo Lodde
Author:
Maurangelo Petruzzella
Author:
Frank V. Otten
Author:
Riccardo Sapienza
Author:
Andrea Fiore
Author:
Marian Florescu
Author:
Francesca Intonti
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