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Dark matter search with a resonantly-coupled hybrid spin system

Kai Wei, Zitong Xu, Yuxuan He, Xiaolin Ma, Xing Heng, Xiaofei Huang, Wei Quan, Wei Ji, Jia Liu, Xiao-Ping Wang, Dmitry Budker, Jiancheng Fang

2025Reports on Progress in Physics28 citationsDOIOpen Access PDF

Abstract

Recent advances in tabletop quantum sensor technology have enabled searches for nongravitational interactions of dark matter (DM). Traditional axion DM experiments rely on sharp resonance, resulting in extensive scanning time to cover a wide mass range. In this work, we present a broadband approach in an alkali- 21Ne spin system. We identify two distinct hybrid spin-coupled regimes: a self-compensation regime at low frequencies and a hybrid spin resonance regime at higher frequencies. By utilizing these two distinct regimes, we significantly enhance the bandwidth of 21Ne nuclear spin compared to conventional nuclear magnetic resonance, while maintaining competitive sensitivity. We present a comprehensive broadband search for axion-like DM, covering 5 orders of magnitude of Compton frequencies range within[10-2,103] Hz. We set new constraints on the axion DM interactions with neutrons and protons, accounting for the effects of DM stochasticity. For the axion-neutron coupling, our results reach a low value of|gann|⩽3×10-10in the frequency range[2×10-2,4] Hz surpassing astrophysical limits and providing the strongest laboratory constraints in the[10,100] Hz range. For the axion-proton coupling, we offer the best terrestrial constraints for the frequency ranges[2×10-2,5] Hz and[16,7×102] Hz.

Topics & Concepts

PhysicsAxionDark matterSpin (aerodynamics)Coupling (piping)NeutronResonance (particle physics)BroadbandNuclear physicsParticle physicsOpticsEngineeringMechanical engineeringThermodynamicsAtomic and Subatomic Physics ResearchDark Matter and Cosmic PhenomenaCold Atom Physics and Bose-Einstein Condensates
Dark matter search with a resonantly-coupled hybrid spin system | Litcius