Dark-matter QCD-axion searches

Rosenberg, Leslie J.

doi:10.1073/pnas.1308788112

Title: Dark-matter QCD-axion searches

Journal Article · Mon Jan 12 00:00:00 EST 2015 · Proceedings of the National Academy of Sciences of the United States of America

DOI:https://doi.org/10.1073/pnas.1308788112· OSTI ID:1356205

Rosenberg, Leslie J. ^[1]

Univ. of Washington, Seattle, WA (United States). Dept. of Physics

In the late 20th century, cosmology became a precision science. At the beginning of the next century, the parameters describing how our universe evolved from the Big Bang are generally known to a few percent. One key parameter is the total mass density of the universe. Normal matter constitutes only a small fraction of the total mass density. Observations suggest this additional mass, the dark matter, is cold (that is, moving nonrelativistically in the early universe) and interacts feebly if at all with normal matter and radiation. There’s no known such elementary particle, so the strong presumption is the dark matter consists of particle relics of a new kind left over from the Big Bang. One of the most important questions in science is the nature of this dark matter. One attractive particle dark-matter candidate is the axion. The axion is a hypothetical elementary particle arising in a simple and elegant extension to the standard model of particle physics that nulls otherwise observable CP-violating effects (where CP is the product of charge reversal C and parity inversion P) in quantum chromo dynamics (QCD). A light axion of mass 10^-(6–3) eV (the invisible axion) would couple extraordinarily weakly to normal matter and radiation and would therefore be extremely difficult to detect in the laboratory. But, such an axion is a compelling dark-matter candidate and is therefore a target of a number of searches. Compared with other particle dark-matter candidates, the plausible range of axion dark-matter couplings and masses is narrowly constrained. This focused search range allows for definitive searches, where a nonobservation would seriously impugn the dark-matter QCD-axion hypothesis. Axion searches use a wide range of technologies, and the experiment sensitivities are now reaching likely dark-matter axion couplings and masses. Our paper is a selective overview of the current generation of sensitive axion searches. Finally, not all techniques and experiments are discussed, but I hope to give a sense of the current experimental landscape of the search for dark-matter axions.

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Research Organization:: Univ. of Washington, Seattle, WA (United States)

Sponsoring Organization:: USDOE Office of Science (SC), High Energy Physics (HEP)

Grant/Contract Number:: SC0007068

OSTI ID:: 1356205

Journal Information:: Proceedings of the National Academy of Sciences of the United States of America, Vol. 112, Issue 40; ISSN 0027-8424

Publisher:: National Academy of Sciences, Washington, DC (United States)Copyright Statement

Country of Publication:: United States

Language:: English

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Cited by: 55 works

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Gravitationally trapped axions on the Earth Lawson, Kyle; Liang, Xunyu; Mead, Alexander Physical Review D, Vol. 100, Issue 4 https://doi.org/10.1103/physrevd.100.043531	journal	August 2019
Constraints on axionlike particles and non-Newtonian gravity from measuring the difference of Casimir forces Klimchitskaya, G. L.; Mostepanenko, V. M. Physical Review D, Vol. 95, Issue 12 https://doi.org/10.1103/physrevd.95.123013	journal	June 2017
Axion detection via topological Casimir effect Cao, ChunJun; Zhitnitsky, Ariel Physical Review D, Vol. 96, Issue 1 https://doi.org/10.1103/physrevd.96.015013	journal	July 2017
Cosmological $C P$ -odd axion field as the coherent Berry’s phase of the Universe Ge, Shuailiang; Liang, Xunyu; Zhitnitsky, Ariel Physical Review D, Vol. 96, Issue 6 https://doi.org/10.1103/physrevd.96.063514	journal	September 2017
Gravitationally bound axions and how one can discover them Liang, Xunyu; Zhitnitsky, Ariel Physical Review D, Vol. 99, Issue 2 https://doi.org/10.1103/physrevd.99.023015	journal	January 2019
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Search for Axionlike Dark Matter with a Liquid-State Nuclear Spin Comagnetometer Wu, Teng; Blanchard, John W.; Centers, Gary P. GSI Helmholtzzentrum fuer Schwerionenforschung, GSI, Darmstadt https://doi.org/10.15120/gsi-2019-01106	text	January 2019
Cosmological CP odd axion field as the coherent Berry's phase of the Universe Ge, Shuailiang; Liang, Xunyu; Zhitnitsky, Ariel arXiv https://doi.org/10.48550/arxiv.1702.04354	text	January 2017
Constraints on axion-like particles and non-Newtonian gravity from measuring the difference of Casimir forces Klimchitskaya, G. L.; Mostepanenko, V. M. arXiv https://doi.org/10.48550/arxiv.1704.05892	text	January 2017
Axions, Instantons, and the Lattice Dine, Michael; Draper, Patrick; Stephenson-Haskins, Laurel arXiv https://doi.org/10.48550/arxiv.1705.00676	text	January 2017
Cosmological Axion and Quark Nugget Dark Matter Model Ge, Shuailiang; Liang, Xunyu; Zhitnitsky, Ariel arXiv https://doi.org/10.48550/arxiv.1711.06271	text	January 2017
Radio Signals from Axion Dark Matter Conversion in Neutron Star Magnetospheres Hook, Anson; Kahn, Yonatan; Safdi, Benjamin R. arXiv https://doi.org/10.48550/arxiv.1804.03145	text	January 2018
Solar Corona Heating by the Axion Quark Nugget Dark Matter Raza, Nayyer; van Waerbeke, Ludovic; Zhitnitsky, Ariel arXiv https://doi.org/10.48550/arxiv.1805.01897	text	January 2018
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Gravitationally trapped axions on Earth Lawson, Kyle; Liang, Xunyu; Mead, Alexander arXiv https://doi.org/10.48550/arxiv.1905.00022	text	January 2019
Bose-Einstein Condensate Dark Matter Halos confronted with galactic rotation curves Dwornik, M.; Keresztes, Z.; Kun, E. arXiv https://doi.org/10.48550/arxiv.1406.0388	text	January 2014

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