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Isotropic band gaps and freeform waeguides obserèed in hyperuniform disordered photonic solids

Isotropic band gaps and freeform waeguides obserèed in hyperuniform disordered photonic solids
Isotropic band gaps and freeform waeguides obserèed in hyperuniform disordered photonic solids
Recently, disordered photonic media and random textured surfaces have attracted increasing attention as strong light diffusers with broadband and wide-angle properties. We report the experimental realization of an isotropic complete photonic band gap (PBG) in a 2D disordered dielectric structure. This structure is designed by a constrained optimization method, which combines advantages of both isotropy due to disorder and controlled scattering properties due to low-density fluctuations (hyperuniformity) and uniform local topology. Our experiments use a modular design composed of Al2O3 walls and cylinders arranged in a hyperuniform disordered network. We observe a complete PBG in the microwave region, in good agreement with theoretical simulations, and show that the intrinsic isotropy of this unique class of PBG materials enables remarkable design freedom, including the realization of waveguides with arbitrary bending angles impossible in photonic crystals. This experimental verification of a complete PBG and realization of functional defects in this unique class of materials demonstrate their potential as building blocks for precise manipulation of photons in planar optical microcircuits and has implications for disordered acoustic and electronic band gap materials.
0027-8424
15886-15891
Man, W.
62ac1aeb-ea9e-4286-b3c6-dde7b3153820
Florescu, M.
14b7415d-9dc6-4ebe-a125-289e47648c65
Williamson, E.P.
8e83c271-817d-4876-b04f-88e14b1ac6e6
He, Y.
fe38fc82-51da-44af-8a16-ec2f36b92400
Hashemizad, S.R.
e73c8eb2-ecd7-40fd-8338-5c5dbe63f31f
Leung, B.Y.C.
6f588a12-1f90-4556-a532-58699f8b8809
Liner, D.R.
59397f48-f793-4af5-9aa4-55b1877ad270
Torquato, S.
55a42684-9a08-48fd-8720-a5f433de1d19
Chaikin, P.M.
efc9274e-226d-4414-b0c8-5c4ae5974ef7
Steinhardt, P.J.
b5b5a024-4643-4446-9211-7587abc1c059
Man, W.
62ac1aeb-ea9e-4286-b3c6-dde7b3153820
Florescu, M.
14b7415d-9dc6-4ebe-a125-289e47648c65
Williamson, E.P.
8e83c271-817d-4876-b04f-88e14b1ac6e6
He, Y.
fe38fc82-51da-44af-8a16-ec2f36b92400
Hashemizad, S.R.
e73c8eb2-ecd7-40fd-8338-5c5dbe63f31f
Leung, B.Y.C.
6f588a12-1f90-4556-a532-58699f8b8809
Liner, D.R.
59397f48-f793-4af5-9aa4-55b1877ad270
Torquato, S.
55a42684-9a08-48fd-8720-a5f433de1d19
Chaikin, P.M.
efc9274e-226d-4414-b0c8-5c4ae5974ef7
Steinhardt, P.J.
b5b5a024-4643-4446-9211-7587abc1c059

Man, W., Florescu, M., Williamson, E.P., He, Y., Hashemizad, S.R., Leung, B.Y.C., Liner, D.R., Torquato, S., Chaikin, P.M. and Steinhardt, P.J. (2013) Isotropic band gaps and freeform waeguides obserèed in hyperuniform disordered photonic solids. Proceedings of the National Academy of Sciences of the United States of America, 15886-15891. (doi:10.1073/pnas.1307879110).

Record type: Article

Abstract

Recently, disordered photonic media and random textured surfaces have attracted increasing attention as strong light diffusers with broadband and wide-angle properties. We report the experimental realization of an isotropic complete photonic band gap (PBG) in a 2D disordered dielectric structure. This structure is designed by a constrained optimization method, which combines advantages of both isotropy due to disorder and controlled scattering properties due to low-density fluctuations (hyperuniformity) and uniform local topology. Our experiments use a modular design composed of Al2O3 walls and cylinders arranged in a hyperuniform disordered network. We observe a complete PBG in the microwave region, in good agreement with theoretical simulations, and show that the intrinsic isotropy of this unique class of PBG materials enables remarkable design freedom, including the realization of waveguides with arbitrary bending angles impossible in photonic crystals. This experimental verification of a complete PBG and realization of functional defects in this unique class of materials demonstrate their potential as building blocks for precise manipulation of photons in planar optical microcircuits and has implications for disordered acoustic and electronic band gap materials.

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Published date: 16 September 2013
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Identifiers

Local EPrints ID: 501291
URI: http://eprints.soton.ac.uk/id/eprint/501291
DOI: doi:10.1073/pnas.1307879110
ISSN: 0027-8424
PURE UUID: 2ded61eb-7fd4-49f4-811b-987b4c0a08d4
ORCID for M. Florescu: ORCID iD orcid.org/0000-0001-6278-9164

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Date deposited: 28 May 2025 16:52
Last modified: 06 Mar 2026 03:31

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Contributors

Author: W. Man
Author: M. Florescu ORCID iD
Author: E.P. Williamson
Author: Y. He
Author: S.R. Hashemizad
Author: B.Y.C. Leung
Author: D.R. Liner
Author: S. Torquato
Author: P.M. Chaikin
Author: P.J. Steinhardt

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