Ultralight dark matter detection with levitated ferromagnets
Ultralight dark matter detection with levitated ferromagnets
Levitated ferromagnets act as ultraprecise magnetometers, which can exhibit high quality factors due to their excellent isolation from the environment. These instruments can be utilized in searches for ultralight dark matter candidates, such as axionlike dark matter or dark-photon dark matter. In addition to being sensitive to an axion-photon coupling or kinetic mixing, which produce physical magnetic fields, ferromagnets are also sensitive to the effective magnetic field (or “axion wind”) produced by an axion-electron coupling. While the dynamics of a levitated ferromagnet in response to a dc magnetic field have been well studied, all of these couplings would produce ac fields. In this work, we study the response of a ferromagnet to an applied ac magnetic field and use these results to project their sensitivity to axion and dark-photon dark matter. We pay special attention to the direction of motion induced by an applied ac field, in particular, whether it precesses around the applied field (similar to an electron spin) or librates in the plane of the field (similar to a compass needle). We show that existing levitated ferromagnet setups can already have comparable sensitivity to an axion-electron coupling as comagnetometer or torsion balance experiments. In addition, future setups can become sensitive probes of axion-electron coupling, dark-photon kinetic mixing, and axion-photon coupling, for ultralight dark matter masses
Kalia, Saarik
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Budker, Dmitry
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Jackson Kimball, Derek F.
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Ji, Wei
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Liu, Zhen
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Sushkov, Alexander O.
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Timberlake, Chris
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Ulbricht, Hendrik
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Vinante, Andrea
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Wang, Tao
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19 December 2024
Kalia, Saarik
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Budker, Dmitry
2d8147c6-82b8-4e9a-8871-cb0d49b9cbea
Jackson Kimball, Derek F.
326a4f96-e2fc-414a-ad5b-b5600f1ebf64
Ji, Wei
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Liu, Zhen
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Sushkov, Alexander O.
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Timberlake, Chris
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Ulbricht, Hendrik
5060dd43-2dc1-47f8-9339-c1a26719527d
Vinante, Andrea
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Wang, Tao
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Kalia, Saarik, Budker, Dmitry, Jackson Kimball, Derek F., Ji, Wei, Liu, Zhen, Sushkov, Alexander O., Timberlake, Chris, Ulbricht, Hendrik, Vinante, Andrea and Wang, Tao
(2024)
Ultralight dark matter detection with levitated ferromagnets.
Phys. Rev. D, 110, [115029].
(doi:10.1103/PhysRevD.110.115029).
Abstract
Levitated ferromagnets act as ultraprecise magnetometers, which can exhibit high quality factors due to their excellent isolation from the environment. These instruments can be utilized in searches for ultralight dark matter candidates, such as axionlike dark matter or dark-photon dark matter. In addition to being sensitive to an axion-photon coupling or kinetic mixing, which produce physical magnetic fields, ferromagnets are also sensitive to the effective magnetic field (or “axion wind”) produced by an axion-electron coupling. While the dynamics of a levitated ferromagnet in response to a dc magnetic field have been well studied, all of these couplings would produce ac fields. In this work, we study the response of a ferromagnet to an applied ac magnetic field and use these results to project their sensitivity to axion and dark-photon dark matter. We pay special attention to the direction of motion induced by an applied ac field, in particular, whether it precesses around the applied field (similar to an electron spin) or librates in the plane of the field (similar to a compass needle). We show that existing levitated ferromagnet setups can already have comparable sensitivity to an axion-electron coupling as comagnetometer or torsion balance experiments. In addition, future setups can become sensitive probes of axion-electron coupling, dark-photon kinetic mixing, and axion-photon coupling, for ultralight dark matter masses
Text
PhysRevD.110.115029
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Accepted/In Press date: 24 November 2024
Published date: 19 December 2024
Identifiers
Local EPrints ID: 497738
URI: http://eprints.soton.ac.uk/id/eprint/497738
ISSN: 2470-0010
PURE UUID: 3a58a816-f9a0-47d7-b494-d7f3ad1c9b13
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Date deposited: 30 Jan 2025 17:46
Last modified: 22 Aug 2025 01:59
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Contributors
Author:
Saarik Kalia
Author:
Dmitry Budker
Author:
Derek F. Jackson Kimball
Author:
Wei Ji
Author:
Zhen Liu
Author:
Alexander O. Sushkov
Author:
Andrea Vinante
Author:
Tao Wang
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