3D positional metrology of a virus-like nanoparticle with topologically structured light
3D positional metrology of a virus-like nanoparticle with topologically structured light
Locating and identifying viruses in in vitro optical measurements is desirable for disease control; however, the sub-diffraction-limit dimensions and low refractive index contrast of viruses make this challenging. Here, we introduce a 3D positional nanometrology for a virus-like 100 nm polystyrene sphere that can reveal the position of the nanoparticle with deeply sub-wavelength accuracy using topologically structured light illumination and machine learning. Scattering of topologically structured light is highly sensitive to the position of a nano-object. Exploiting this, our experiments demonstrate deeply sub-wavelength (λ) precision reaching 5 nm (λ/91). Our findings indicate a route toward label-free in vitro nanometrology of viruses and similar nano-objects with precision far beyond the Abbe-Rayleigh diffraction limit.
Wang, Yu
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Aik Chan, Eng
803a26e6-c74c-47fe-943b-80f790955e3b
Rendon-Barraza, Carolina
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Shen, Yijie
42410cf7-8adb-4de6-9175-a1332245c368
Plum, Eric
50761a26-2982-40df-9153-7aecc4226eb5
MacDonald, Kevin F.
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Ou, Jun-Yu
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Zheludev, Nikolay I.
32fb6af7-97e4-4d11-bca6-805745e40cc6
29 May 2024
Wang, Yu
782c5e8b-7ff6-4f4f-9046-5b6410d21249
Aik Chan, Eng
803a26e6-c74c-47fe-943b-80f790955e3b
Rendon-Barraza, Carolina
8330193a-4b7d-45c8-8427-20de72e861b8
Shen, Yijie
42410cf7-8adb-4de6-9175-a1332245c368
Plum, Eric
50761a26-2982-40df-9153-7aecc4226eb5
MacDonald, Kevin F.
76c84116-aad1-4973-b917-7ca63935dba5
Ou, Jun-Yu
3fb703e3-b222-46d2-b4ee-75f296d9d64d
Zheludev, Nikolay I.
32fb6af7-97e4-4d11-bca6-805745e40cc6
Wang, Yu, Aik Chan, Eng, Rendon-Barraza, Carolina, Shen, Yijie, Plum, Eric, MacDonald, Kevin F., Ou, Jun-Yu and Zheludev, Nikolay I.
(2024)
3D positional metrology of a virus-like nanoparticle with topologically structured light.
Applied Physics Letters, 124 (22), [221102].
(doi:10.1063/5.0207958).
Abstract
Locating and identifying viruses in in vitro optical measurements is desirable for disease control; however, the sub-diffraction-limit dimensions and low refractive index contrast of viruses make this challenging. Here, we introduce a 3D positional nanometrology for a virus-like 100 nm polystyrene sphere that can reveal the position of the nanoparticle with deeply sub-wavelength accuracy using topologically structured light illumination and machine learning. Scattering of topologically structured light is highly sensitive to the position of a nano-object. Exploiting this, our experiments demonstrate deeply sub-wavelength (λ) precision reaching 5 nm (λ/91). Our findings indicate a route toward label-free in vitro nanometrology of viruses and similar nano-objects with precision far beyond the Abbe-Rayleigh diffraction limit.
Text
APL24-AR-03389 accepted manuscript - APL version
- Accepted Manuscript
Text
3D positional metrology of a virus-like nanoparticle with topologically structured light
- Version of Record
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Accepted/In Press date: 15 May 2024
Published date: 29 May 2024
Additional Information:
Publisher Copyright:
© 2024 Author(s).
Identifiers
Local EPrints ID: 490866
URI: http://eprints.soton.ac.uk/id/eprint/490866
ISSN: 0003-6951
PURE UUID: 9c01e291-b6ac-4032-806f-4c2bd1d753f8
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Date deposited: 07 Jun 2024 16:38
Last modified: 20 Aug 2024 01:43
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Contributors
Author:
Yu Wang
Author:
Eng Aik Chan
Author:
Carolina Rendon-Barraza
Author:
Yijie Shen
Author:
Eric Plum
Author:
Kevin F. MacDonald
Author:
Jun-Yu Ou
Author:
Nikolay I. Zheludev
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