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Levitation and controlled MHz rotation of a nanofabricated rod by a high-NA metalens

Levitation and controlled MHz rotation of a nanofabricated rod by a high-NA metalens
Levitation and controlled MHz rotation of a nanofabricated rod by a high-NA metalens
An optically levitated nanoparticle in a vacuum provides an ideal platform for ultra-precision measurements and fundamental physics studies because of the exceptionally high-quality factor and rich motion modes, which can be engineered by manipulating the optical field and the geometry of the nanoparticle. Nanofabrication technology with the ability to create arbitrary nanostructure arrays offers a precise way of engineering the optical field and the geometry of the nanoparticle. Here, for the first time, we optically levitate and rotate a nanofabricated nanorod via a nanofabricated a-Si metalens which strongly focuses a 1550 nm laser beam with a numerical aperture of 0.953. By manipulating the laser beam’s polarization, the levitated nanorod’s translation frequencies can be tuned, and the spin rotation mode can be switched on and off. Then, we showed the control of rotational frequency by changing the laser beam’s intensity and polarization as well as the air pressure. Finally, a MHz spin rotation frequency of the nanorod is achieved in the experiment. This is the first demonstration of controlled optical spin in a metalens-based compact optical levitation system. Our research holds promise for realizing scalable on-chip integrated optical levitation systems.
2055-7434
Pi, Hailong
e275259b-31f8-430c-89d5-0d029740d60e
Sun, Chuang
aecdd672-871a-4f6b-91db-ed98292addf2
Kiang, Kian Shen
fdb609c6-75aa-4893-85c8-8e50edfda7fe
Georgescu, Tiberius-stefan
90e287ef-1bc3-43a1-8cb7-38a47c440e07
Ou, Bruce Jun-Yu
3fb703e3-b222-46d2-b4ee-75f296d9d64d
Ulbricht, Hendrik
5060dd43-2dc1-47f8-9339-c1a26719527d
Yan, Jize
786dc090-843b-435d-adbe-1d35e8fc5828
Pi, Hailong
e275259b-31f8-430c-89d5-0d029740d60e
Sun, Chuang
aecdd672-871a-4f6b-91db-ed98292addf2
Kiang, Kian Shen
fdb609c6-75aa-4893-85c8-8e50edfda7fe
Georgescu, Tiberius-stefan
90e287ef-1bc3-43a1-8cb7-38a47c440e07
Ou, Bruce Jun-Yu
3fb703e3-b222-46d2-b4ee-75f296d9d64d
Ulbricht, Hendrik
5060dd43-2dc1-47f8-9339-c1a26719527d
Yan, Jize
786dc090-843b-435d-adbe-1d35e8fc5828

Pi, Hailong, Sun, Chuang, Kiang, Kian Shen, Georgescu, Tiberius-stefan, Ou, Bruce Jun-Yu, Ulbricht, Hendrik and Yan, Jize (2025) Levitation and controlled MHz rotation of a nanofabricated rod by a high-NA metalens. Microsystems and Nanoengineering, Nature publication group, 11 (1), [67]. (doi:10.1038/s41378-025-00886-7).

Record type: Article

Abstract

An optically levitated nanoparticle in a vacuum provides an ideal platform for ultra-precision measurements and fundamental physics studies because of the exceptionally high-quality factor and rich motion modes, which can be engineered by manipulating the optical field and the geometry of the nanoparticle. Nanofabrication technology with the ability to create arbitrary nanostructure arrays offers a precise way of engineering the optical field and the geometry of the nanoparticle. Here, for the first time, we optically levitate and rotate a nanofabricated nanorod via a nanofabricated a-Si metalens which strongly focuses a 1550 nm laser beam with a numerical aperture of 0.953. By manipulating the laser beam’s polarization, the levitated nanorod’s translation frequencies can be tuned, and the spin rotation mode can be switched on and off. Then, we showed the control of rotational frequency by changing the laser beam’s intensity and polarization as well as the air pressure. Finally, a MHz spin rotation frequency of the nanorod is achieved in the experiment. This is the first demonstration of controlled optical spin in a metalens-based compact optical levitation system. Our research holds promise for realizing scalable on-chip integrated optical levitation systems.

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Accepted/In Press date: 20 January 2025
Published date: 21 April 2025
Learn more about School of Electronics and Computer Science research Learn more about Smart Electronic Materials and Systems research

Identifiers

Local EPrints ID: 502713
URI: http://eprints.soton.ac.uk/id/eprint/502713
DOI: doi:10.1038/s41378-025-00886-7
ISSN: 2055-7434
PURE UUID: 827d961a-1139-472d-886c-25bd4bf04e18
ORCID for Chuang Sun: ORCID iD orcid.org/0000-0001-7024-1916
ORCID for Kian Shen Kiang: ORCID iD orcid.org/0000-0002-7326-909X
ORCID for Bruce Jun-Yu Ou: ORCID iD orcid.org/0000-0001-8028-6130
ORCID for Hendrik Ulbricht: ORCID iD orcid.org/0000-0003-0356-0065
ORCID for Jize Yan: ORCID iD orcid.org/0000-0002-2886-2847

Catalogue record

Date deposited: 07 Jul 2025 16:37
Last modified: 11 Sep 2025 02:46

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Contributors

Author: Hailong Pi
Author: Chuang Sun ORCID iD
Author: Kian Shen Kiang ORCID iD
Author: Tiberius-stefan Georgescu
Author: Bruce Jun-Yu Ou ORCID iD
Author: Hendrik Ulbricht ORCID iD
Author: Jize Yan ORCID iD

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