Measurement of photonic band diagram in non-crystalline photonic band gap (PBG) materials
Measurement of photonic band diagram in non-crystalline photonic band gap (PBG) materials
Non-crystalline PBG materials have received increasing attention recently and sizeable PBGs have been reported in quasi-crystalline structures or even in disordered structures. Band calculations for periodic structures produce accurate dispersion relations in them and refraction properties at their surfaces. However, band calculations for non-periodic structures employ large super-cells of N >100 building blocks, and provide little useful information other than the PBG frequency and width. Since band is folded into N bands, within the first Brillouin zone of the supper-cell. Using stereolithography, we construct various quasi-crystalline or disordered PBG materials and perform transmission measurements. The dispersion relations of EM wave (band diagrams) are reconstructed from the measured phase data. Our experiments not only verify the existence of sizeable PBGs in these structures, but also provide detailed information of the effective band diagrams, dispersion relation, group velocity vector, and their angular dependence. Slow light phenomena are also observed in these structures near gap frequencies. This study presents a powerful tool to investigate photonic properties of non-crystalline structures and provides important dispersion information, which is otherwise impossible to obtain.
Man, Weining
62ac1aeb-ea9e-4286-b3c6-dde7b3153820
Williamson, Eric
25259c85-32e9-4f4c-aeb2-b3187e1729d0
Hashemizad, Seyed
9492fe61-9966-407c-9b8f-c0225f648d18
Yadak, Polin
f7f61283-6a6f-42ad-bf3c-68ca08d32c03
Florescu, Marian
14b7415d-9dc6-4ebe-a125-289e47648c65
1 March 2011
Man, Weining
62ac1aeb-ea9e-4286-b3c6-dde7b3153820
Williamson, Eric
25259c85-32e9-4f4c-aeb2-b3187e1729d0
Hashemizad, Seyed
9492fe61-9966-407c-9b8f-c0225f648d18
Yadak, Polin
f7f61283-6a6f-42ad-bf3c-68ca08d32c03
Florescu, Marian
14b7415d-9dc6-4ebe-a125-289e47648c65
Man, Weining, Williamson, Eric, Hashemizad, Seyed, Yadak, Polin and Florescu, Marian
(2011)
Measurement of photonic band diagram in non-crystalline photonic band gap (PBG) materials.
American Physical Society, APS March Meeting 2011, March 21-25, 2011.
Abstract
Non-crystalline PBG materials have received increasing attention recently and sizeable PBGs have been reported in quasi-crystalline structures or even in disordered structures. Band calculations for periodic structures produce accurate dispersion relations in them and refraction properties at their surfaces. However, band calculations for non-periodic structures employ large super-cells of N >100 building blocks, and provide little useful information other than the PBG frequency and width. Since band is folded into N bands, within the first Brillouin zone of the supper-cell. Using stereolithography, we construct various quasi-crystalline or disordered PBG materials and perform transmission measurements. The dispersion relations of EM wave (band diagrams) are reconstructed from the measured phase data. Our experiments not only verify the existence of sizeable PBGs in these structures, but also provide detailed information of the effective band diagrams, dispersion relation, group velocity vector, and their angular dependence. Slow light phenomena are also observed in these structures near gap frequencies. This study presents a powerful tool to investigate photonic properties of non-crystalline structures and provides important dispersion information, which is otherwise impossible to obtain.
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Published date: 1 March 2011
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Local EPrints ID: 501204
URI: http://eprints.soton.ac.uk/id/eprint/501204
PURE UUID: 9e6633e8-637e-4af6-ae50-a11971c1ac48
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Date deposited: 27 May 2025 17:19
Last modified: 28 May 2025 02:18
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Contributors
Author:
Weining Man
Author:
Eric Williamson
Author:
Seyed Hashemizad
Author:
Polin Yadak
Author:
Marian Florescu
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