Disordered hyperuniform photonic band gap materials
Disordered hyperuniform photonic band gap materials
Until recently, the only materials known to have complete photonic band gaps were photonic crystals, periodic structures, and it was generally assumed that long-range periodic order was instrumental in the band gap formation. We have shown that there exists a more general class of systems, called hyperuniform photonic structures, which exhibit large and complete photonic band gaps. This classification includes not only crystalline structures, but also non-crystalline materials, ranging from quasicrystals with crystallographically-forbidden rotational symmetries to isotropic, translationally-disordered structures. Remarkably, we find that the photonic band gaps in hyperuniform disordered structures are not only comparable to those found in photonic crystals, but also display a high degree of isotropy. These new materials possess unique photonic and physical properties that provide important advantages for applications. Our results show that hyperuniform disordered structures enable the realization of optical cavities with ultimate isotropic confinement of the electromagnetic radiation, lossless waveguides with arbitrary bending angles and flexible optical insulator platforms.
Florescu, Marian
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Man, Weining
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Chaikin, Paul
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Torquato, Salvatore
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Steinhardt, Paul J.
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1 March 2011
Florescu, Marian
14b7415d-9dc6-4ebe-a125-289e47648c65
Man, Weining
62ac1aeb-ea9e-4286-b3c6-dde7b3153820
Chaikin, Paul
a9552f7b-cf89-4156-8f4d-62a345ea1fc7
Torquato, Salvatore
55a42684-9a08-48fd-8720-a5f433de1d19
Steinhardt, Paul J.
b5b5a024-4643-4446-9211-7587abc1c059
Florescu, Marian, Man, Weining, Chaikin, Paul, Torquato, Salvatore and Steinhardt, Paul J.
(2011)
Disordered hyperuniform photonic band gap materials.
American Physical Society, APS March Meeting 2011, March 21-25, 2011.
Abstract
Until recently, the only materials known to have complete photonic band gaps were photonic crystals, periodic structures, and it was generally assumed that long-range periodic order was instrumental in the band gap formation. We have shown that there exists a more general class of systems, called hyperuniform photonic structures, which exhibit large and complete photonic band gaps. This classification includes not only crystalline structures, but also non-crystalline materials, ranging from quasicrystals with crystallographically-forbidden rotational symmetries to isotropic, translationally-disordered structures. Remarkably, we find that the photonic band gaps in hyperuniform disordered structures are not only comparable to those found in photonic crystals, but also display a high degree of isotropy. These new materials possess unique photonic and physical properties that provide important advantages for applications. Our results show that hyperuniform disordered structures enable the realization of optical cavities with ultimate isotropic confinement of the electromagnetic radiation, lossless waveguides with arbitrary bending angles and flexible optical insulator platforms.
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Published date: 1 March 2011
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Local EPrints ID: 503129
URI: http://eprints.soton.ac.uk/id/eprint/503129
PURE UUID: c9295e2a-9d6d-446d-8453-3a5d469d5609
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Date deposited: 22 Jul 2025 16:44
Last modified: 23 Jul 2025 02:20
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Contributors
Author:
Marian Florescu
Author:
Weining Man
Author:
Paul Chaikin
Author:
Salvatore Torquato
Author:
Paul J. Steinhardt
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