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Improved limits on the coupling of ultralight bosonic dark matter to photons from optical atomic clock comparisons

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arxiv 2301.03433 v1 pith:XIUF7SKW submitted 2023-01-09 physics.atom-ph gr-qchep-phphysics.optics

Improved limits on the coupling of ultralight bosonic dark matter to photons from optical atomic clock comparisons

classification physics.atom-ph gr-qchep-phphysics.optics
keywords textrmclockcouplingdarkfrequencymatteropticaltransition
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present improved constraints on the coupling of ultralight bosonic dark matter to photons based on long-term measurements of two optical frequency ratios. In these optical clock comparisons, we relate the frequency of the ${}^2S_{1/2} (F=0)\leftrightarrow {}^2F_{7/2} (F=3)$ electric-octupole (E3) transition in $^{171}$Yb$^{+}$ to that of the ${}^2S_{1/2} (F=0)\leftrightarrow \,{}^2D_{3/2} (F=2)$ electric-quadrupole (E2) transition of the same ion, and to that of the ${}^1S_0\leftrightarrow\,{}^3P_0$ transition in $^{87}$Sr. Measurements of the first frequency ratio $\nu_\textrm{E3}/\nu_\textrm{E2}$ are performed via interleaved interrogation of both transitions in a single ion. The comparison of the single-ion clock based on the E3 transition with a strontium optical lattice clock yields the second frequency ratio $\nu_\textrm{E3}/\nu_\textrm{Sr}$. By constraining oscillations of the fine-structure constant $\alpha$ with these measurement results, we improve existing bounds on the scalar coupling $d_e$ of ultralight dark matter to photons for dark matter masses in the range of about $ 10^{-24}-10^{-17}\,\textrm{eV}/c^2$. These results constitute an improvement by more than an order of magnitude over previous investigations for most of this range. We also use the repeated measurements of $\nu_\textrm{E3}/\nu_\textrm{E2}$ to improve existing limits on a linear temporal drift of $\alpha$ and its coupling to gravity.

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Cited by 3 Pith papers

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  1. Background-Induced Forces from Quadratically Coupled Ultralight Dark Matter

    hep-ph 2026-06 unverdicted novelty 7.0

    Earth screening of quadratically coupled ultralight dark matter produces a multi-band frequency structure in the induced force whose sideband amplitudes vary annually, enabling improved constraints from MICROSCOPE and...

  2. Is the Conventional Picture of Coherence Time Complete? Dark Matter Recoherence

    hep-ph 2026-01 unverdicted novelty 7.0

    Ultralight dark matter exhibits recoherence due to the solar gravitational potential, yielding formally divergent coherence times at long timescales and enhanced search sensitivity.

  3. Probing Quadratically Coupled Ultralight Dark Matter with the Laser Interferometer Space Antenna

    hep-ph 2026-07 conditional novelty 6.0

    LISA forecasts for quadratically coupled ultralight dark matter show competitive or superior sensitivity to terrestrial and astrophysical probes in selected mass windows, free of screening.