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Constraining rapidly oscillating scalar dark matter using dynamic decoupling

Shahaf Aharony Shapira, Nitzan Akerman, Roee Ozeri, Gilad Pérez, Inbar Savoray, Ravid Shaniv

2021Physical review. D/Physical review. D.44 citationsDOIOpen Access PDF

Abstract

We propose and experimentally demonstrate a method for detection of a light scalar dark matter (DM) field through probing temporal oscillations of fundamental constants in an atomic optical transition. Utilizing the quantum information notion of dynamic decoupling (DD) in a tabletop setting, we are able to obtain model-independent bounds on variations of $\ensuremath{\alpha}$ and ${m}_{e}$ at frequencies up to the MHz scale. We interpret our results to constrain the parameter space of light scalar DM field models. We consider the generic case, where the couplings of the DM field to the photon and the electron are independent, as well as the case of a relaxion DM model, including the scenario of a DM boson star centered around Earth. Given the particular nature of DD, allowing one to directly observe the oscillatory behavior of coherent DM and considering future experimental improvements, we conclude that our proposed method could be complimentary to, and possibly competitive with, gravitational probes of light scalar DM.

Topics & Concepts

PhysicsDecoupling (probability)Scalar fieldDark matterScalar (mathematics)BosonParameter spaceQuantumStatistical physicsQuantum electrodynamicsQuantum mechanicsParticle physicsEngineeringGeometryStatisticsMathematicsControl engineeringDark Matter and Cosmic PhenomenaAtomic and Subatomic Physics ResearchCold Atom Physics and Bose-Einstein Condensates
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