Litcius/Paper detail

Searching for Dark Matter with an Optical Cavity and an Unequal-Delay Interferometer

Etienne Savalle, Aurélien Hees, Florian Frank, Etienne Cantin, Paul-Éric Pottie, B. M. Roberts, Lucie Cros, Ben T. McAllister, Peter Wolf

2021Physical Review Letters65 citationsDOIOpen Access PDF

Abstract

We propose a new type of experiment that compares the frequency of a clock (an ultrastable optical cavity in this case) at time t to its own frequency some time t-T earlier, by "storing" the output signal (photons) in a fiber delay line. In ultralight oscillating dark matter (DM) models, such an experiment is sensitive to coupling of DM to the standard model fields, through oscillations of the cavity and fiber lengths and of the fiber refractive index. Additionally, the sensitivity is significantly enhanced around the mechanical resonances of the cavity. We present experimental results of such an experiment and report no evidence of DM for masses in the [4.1×10^{-11}, 8.3×10^{-10}] eV region. In addition, we improve constraints on the involved coupling constants by one order of magnitude in a standard galactic DM model, at the mass corresponding to the resonant frequency of our cavity. Furthermore, in the model of relaxion DM, we improve on existing constraints over the whole DM mass range by about one order of magnitude, and up to 6 orders of magnitude at resonance.

Topics & Concepts

PhysicsPhotonCoupling (piping)Dark matterSensitivity (control systems)Resonance (particle physics)InterferometrySIGNAL (programming language)OpticsMagnitude (astronomy)Refractive indexAtomic physicsRange (aeronautics)AstrophysicsComposite materialElectronic engineeringMaterials scienceComputer scienceMechanical engineeringProgramming languageEngineeringAtomic and Subatomic Physics ResearchCold Atom Physics and Bose-Einstein CondensatesAdvanced Frequency and Time Standards