Near-field imaging of optical nanocavities in hyperuniform disordered materials
Near-field imaging of optical nanocavities in hyperuniform disordered materials
Hyperuniform disordered photonic materials have recently been shown to display large, complete photonic band gaps and isotropic optical properties, and are emerging as strong candidates for a plethora of optoelectronic applications, making them competitive with many of their periodic and quasiperiodic counterparts. In this work, high quality factor optical cavities in hyperuniform disordered architectures are fabricated through semiconductor slabs and experimentally addressed by scanning near-field optical microscopy. The wide range of confined cavity modes that we detect arise from carefully designed local modifications of the dielectric structure. Previous works on hyperuniform disordered photonic systems have previously identified several Anderson localized states spectrally located at the PBG edges with relatively high quality factors. In this work, by engineering the structural parameters of the cavity, we achieve an experimental quality factor of order 6000 (higher than the one of the Anderson states) and we demonstrate that three types of localized modes of different nature coexist within a small area and in a relatively narrow spectral window of the disordered correlated system. Their compatibility with general boundary constraints, in contrast with ordered architectures that suffer strict layout constraints imposed by photonic crystals’ axes orientation, makes optical cavities in disordered hyperuniform patterns a flexible optical insulator platform for planar optical circuits.
Granchi, Nicoletta
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Lodde, Matteo
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Stokkereit, K.
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Spalding, R.
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van Veldhoven, P. J.
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Sapienza, R.
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Fiore, A.
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Gurioli, M.
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Florescu, M.
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Intonti, Francesca
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21 February 2023
Granchi, Nicoletta
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Lodde, Matteo
ee6ce153-3b36-404d-b99c-0375a5b1bb97
Stokkereit, K.
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Spalding, R.
018a8fd3-3e9f-42a5-b78e-5ef0f4b7b894
van Veldhoven, P. J.
be77db87-d35c-4254-ae5e-d04316c5c8c9
Sapienza, R.
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Fiore, A.
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Gurioli, M.
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Florescu, M.
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Intonti, Francesca
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Granchi, Nicoletta, Lodde, Matteo, Stokkereit, K., Spalding, R., van Veldhoven, P. J., Sapienza, R., Fiore, A., Gurioli, M., Florescu, M. and Intonti, Francesca
(2023)
Near-field imaging of optical nanocavities in hyperuniform disordered materials.
Physical Review B, 107, [064204].
(doi:10.1103/physrevb.107.064204).
Abstract
Hyperuniform disordered photonic materials have recently been shown to display large, complete photonic band gaps and isotropic optical properties, and are emerging as strong candidates for a plethora of optoelectronic applications, making them competitive with many of their periodic and quasiperiodic counterparts. In this work, high quality factor optical cavities in hyperuniform disordered architectures are fabricated through semiconductor slabs and experimentally addressed by scanning near-field optical microscopy. The wide range of confined cavity modes that we detect arise from carefully designed local modifications of the dielectric structure. Previous works on hyperuniform disordered photonic systems have previously identified several Anderson localized states spectrally located at the PBG edges with relatively high quality factors. In this work, by engineering the structural parameters of the cavity, we achieve an experimental quality factor of order 6000 (higher than the one of the Anderson states) and we demonstrate that three types of localized modes of different nature coexist within a small area and in a relatively narrow spectral window of the disordered correlated system. Their compatibility with general boundary constraints, in contrast with ordered architectures that suffer strict layout constraints imposed by photonic crystals’ axes orientation, makes optical cavities in disordered hyperuniform patterns a flexible optical insulator platform for planar optical circuits.
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Accepted/In Press date: 6 February 2023
Published date: 21 February 2023
Identifiers
Local EPrints ID: 501304
URI: http://eprints.soton.ac.uk/id/eprint/501304
ISSN: 2469-9950
PURE UUID: 0723c03b-27a9-463c-be4b-99e4dfa59df1
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Date deposited: 28 May 2025 16:57
Last modified: 29 May 2025 02:16
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Contributors
Author:
Nicoletta Granchi
Author:
Matteo Lodde
Author:
K. Stokkereit
Author:
R. Spalding
Author:
P. J. van Veldhoven
Author:
R. Sapienza
Author:
A. Fiore
Author:
M. Gurioli
Author:
M. Florescu
Author:
Francesca Intonti
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