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Tailoring optical metamaterials to tune the atom-surface Casimir-Polder interaction

Tailoring optical metamaterials to tune the atom-surface Casimir-Polder interaction
Tailoring optical metamaterials to tune the atom-surface Casimir-Polder interaction
Metamaterials are fascinating tools that can structure not only surface plasmons and electromagnetic waves but also electromagnetic vacuum fluctuations. The possibility of shaping the quantum vacuum is a powerful concept that ultimately allows engineering the interaction between macroscopic surfaces and quantum emitters such as atoms, molecules, or quantum dots. The long-range atom-surface interaction, known as Casimir-Polder interaction, is of fundamental importance in quantum electrodynamics but also attracts a significant interest for platforms that interface atoms with nanophotonic devices. We perform a spectroscopic selective reflection measurement of the Casimir-Polder interaction between a Cs(6P3/2) atom and a nanostructured metallic planar metamaterial. We show that by engineering the near-field plasmonic resonances of the metamaterial, we can successfully tune the Casimir-Polder interaction, demonstrating both a strong enhancement and reduction with respect to its nonresonant value. We also show an enhancement of the atomic spontaneous emission rate due to its coupling with the evanescent modes of the nanostructure. Probing excited-state atoms next to nontrivial tailored surfaces is a rigorous test of quantum electrodynamics. Engineering Casimir-Polder interactions represents a significant step toward atom trapping in the extreme near field, possibly without the use of external fields.
2375-2548
Aik Chan, Eng
803a26e6-c74c-47fe-943b-80f790955e3b
Abdullah Aljunid, Syed
d1c0e21a-036a-4e14-b21b-b9d2781d7dab
Adamo, Giorgio
90eaf079-f42c-4de9-ad5f-a01685049941
Laliotis, Athansios
31d6a8cb-d78b-41ab-82a1-bc5030bdda45
Ducloy, Martial
f8e2202a-0f34-4bfe-a0a1-4117ba7dc1b3
Wilkowski, David
93d79cff-9009-4438-9e12-e2469bde4fa3
Aik Chan, Eng
803a26e6-c74c-47fe-943b-80f790955e3b
Abdullah Aljunid, Syed
d1c0e21a-036a-4e14-b21b-b9d2781d7dab
Adamo, Giorgio
90eaf079-f42c-4de9-ad5f-a01685049941
Laliotis, Athansios
31d6a8cb-d78b-41ab-82a1-bc5030bdda45
Ducloy, Martial
f8e2202a-0f34-4bfe-a0a1-4117ba7dc1b3
Wilkowski, David
93d79cff-9009-4438-9e12-e2469bde4fa3

Aik Chan, Eng, Abdullah Aljunid, Syed, Adamo, Giorgio, Laliotis, Athansios, Ducloy, Martial and Wilkowski, David (2018) Tailoring optical metamaterials to tune the atom-surface Casimir-Polder interaction. Science Advances, 4 (2). (doi:10.1126/sciadv.aao4223).

Record type: Article

Abstract

Metamaterials are fascinating tools that can structure not only surface plasmons and electromagnetic waves but also electromagnetic vacuum fluctuations. The possibility of shaping the quantum vacuum is a powerful concept that ultimately allows engineering the interaction between macroscopic surfaces and quantum emitters such as atoms, molecules, or quantum dots. The long-range atom-surface interaction, known as Casimir-Polder interaction, is of fundamental importance in quantum electrodynamics but also attracts a significant interest for platforms that interface atoms with nanophotonic devices. We perform a spectroscopic selective reflection measurement of the Casimir-Polder interaction between a Cs(6P3/2) atom and a nanostructured metallic planar metamaterial. We show that by engineering the near-field plasmonic resonances of the metamaterial, we can successfully tune the Casimir-Polder interaction, demonstrating both a strong enhancement and reduction with respect to its nonresonant value. We also show an enhancement of the atomic spontaneous emission rate due to its coupling with the evanescent modes of the nanostructure. Probing excited-state atoms next to nontrivial tailored surfaces is a rigorous test of quantum electrodynamics. Engineering Casimir-Polder interactions represents a significant step toward atom trapping in the extreme near field, possibly without the use of external fields.

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Accepted/In Press date: 5 January 2018
Published date: 2 February 2018

Identifiers

Local EPrints ID: 509542
URI: http://eprints.soton.ac.uk/id/eprint/509542
DOI: doi:10.1126/sciadv.aao4223
ISSN: 2375-2548
PURE UUID: a50bed73-9267-4ba0-aebc-3602059c96b7
ORCID for Giorgio Adamo: ORCID iD orcid.org/0000-0003-1974-3368

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Date deposited: 25 Feb 2026 17:45
Last modified: 07 Mar 2026 03:53

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Contributors

Author: Eng Aik Chan
Author: Syed Abdullah Aljunid
Author: Giorgio Adamo ORCID iD
Author: Athansios Laliotis
Author: Martial Ducloy
Author: David Wilkowski

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