Axion dark matter: What is it and why now?

Francesca Chadha-Day; John Ellis; David J.E. Marsh

doi:10.1126/sciadv.abj3618

Axion dark matter: What is it and why now?

Francesca Chadha-Day^*, John Ellis, David J.E. Marsh

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

The axion has emerged in recent years as a leading particle candidate to provide the mysterious dark matter in the cosmos, as we review here for a general scientific audience. We describe first the historical roots of the axion in the Standard Model of particle physics and the problem of charge-parity invariance of the strong nuclear force. We then discuss how the axion emerges as a dark matter candidate and how it is produced in the early universe. The symmetry properties of the axion dictate the form of its interactions with ordinary matter. Astrophysical considerations restrict the particle mass and interaction strengths to a limited range, which facilitates the planning of experiments to detect the axion. A companion review discusses the exciting prospect that the axion could be detected in the near term in the laboratory.

Original language	English
Article number	eabj3618
Journal	Science Advances
Volume	8
Issue number	8
Early online date	23 Feb 2022
DOIs	https://doi.org/10.1126/sciadv.abj3618
Publication status	Published - Feb 2022

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10.1126/sciadv.abj3618Licence: CC BY-NC

Axion dark matter_CHADHA-DAY_Publishedonline23Feb2022_GOLD VoR (CC BY NC)Final published version, 704 KBLicence: CC BY-NC

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title = "Axion dark matter: What is it and why now?",

abstract = "The axion has emerged in recent years as a leading particle candidate to provide the mysterious dark matter in the cosmos, as we review here for a general scientific audience. We describe first the historical roots of the axion in the Standard Model of particle physics and the problem of charge-parity invariance of the strong nuclear force. We then discuss how the axion emerges as a dark matter candidate and how it is produced in the early universe. The symmetry properties of the axion dictate the form of its interactions with ordinary matter. Astrophysical considerations restrict the particle mass and interaction strengths to a limited range, which facilitates the planning of experiments to detect the axion. A companion review discusses the exciting prospect that the axion could be detected in the near term in the laboratory.",

author = "Francesca Chadha-Day and John Ellis and Marsh, {David J.E.}",

note = "Funding Information: F.C.-D. is supported by the U.K. STFC grant ST/P001246/1 and Stephen Hawking Fellowship EP/T01668X/1. The work of J.E. was supported in part by the U.K. STFC via grant ST/T000759/1 and in part by the Estonian Research Council via grant MOBTT5. D.J.E.M. was previously supported by the Alexander von Humboldt Foundation and the German Federal Ministry of Education and Research and is now supported by the U.K. STFC Ernest Rutherford Fellowship. Publisher Copyright: Copyright {\textcopyright} 2022 The Authors, some rights reserved.",

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Axion dark matter: What is it and why now?

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