An atomic probe of dark matter differential interactions with elementary particles

Searching for physics beyond the Standard Model is one of the main tasks of experimental physics. Candidates for dark matter include axion-like ultralight bosonic particles. Comagnetometers form ultra-high sensitivity probes for such particles and any exotic field that interacts with the spin of an...

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Veröffentlicht in:	arXiv.org 2024-07
Hauptverfasser:	Rosenzweig, Yossi, Kats, Yevgeny, Givon, Menachem, Japha, Yonathan, Folman, Ron
Format:	Artikel
Sprache:	eng
Schlagworte:	Dark matter Elementary particles Magnetic fields Particle physics Physics - High Energy Physics - Phenomenology Physics - Quantum Physics
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creator	Rosenzweig, Yossi Kats, Yevgeny Givon, Menachem Japha, Yonathan Folman, Ron
description	Searching for physics beyond the Standard Model is one of the main tasks of experimental physics. Candidates for dark matter include axion-like ultralight bosonic particles. Comagnetometers form ultra-high sensitivity probes for such particles and any exotic field that interacts with the spin of an atom. Here, we propose a multi-atom-species probe that enables not only to discover such fields and measure their spectrum but also to determine the ratios of their coupling strengths to sub-atomic elementary particles, electrons, neutrons and protons. We further show that the multi-faceted capabilities of this probe may be demonstrated with synthetic exotic fields generated by a combination of regular magnetic fields and light-induced fictitious magnetic fields in alkali atoms. These synthetic fields also enable the accurate calibration of any magnetometer or comagnetometer probe for exotic physics.
doi_str_mv	10.48550/arxiv.2312.05894
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subjects	Dark matter Elementary particles Magnetic fields Particle physics Physics - High Energy Physics - Phenomenology Physics - Quantum Physics
title	An atomic probe of dark matter differential interactions with elementary particles
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