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Astrometric Search for Ultralight Dark Matter

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arxiv 2406.03539 v1 pith:Z5E5J6FT submitted 2024-06-05 hep-ph astro-ph.COastro-ph.GA

Astrometric Search for Ultralight Dark Matter

classification hep-ph astro-ph.COastro-ph.GA
keywords darkmatterastrometryultralightangulardensitylightprecision
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Precision astrometry offers a way to probe new physics. By measuring the angular position of light sources at unprecedented precision, astrometry could probe minuscule fluctuations of underlying spacetime. This work explores the possibility of probing ultralight dark matter candidates using precision astrometry. Through the coherent and stochastic density fluctuations over the scale of its wavelength, ultralight dark matter perturbs the propagation of light and the geodesics of the observer and source, leading to unique time-dependent signatures in the angular position of background light sources. With detector specifications similar to the current and future astrometry observations, such as Gaia and Roman Space Telescope, it is shown that the ultralight scalar dark matter of mass $10^{-18}\,{\rm eV} \, \textrm{--} \, 10^{-16} \,{\rm eV}$ could be probed when its density near the solar system is about a few thousand times larger than the nominal dark matter density measured on a much larger kpc-scale. This sensitivity is comparable to current pulsar timing array observations at a similar mass range. Explicit expressions for the angular deflection induced by most generic metric perturbations are derived and its gauge invariance is explicitly checked at the linear order.

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Forward citations

Cited by 3 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. 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.

  2. Time-dependent signals of new physics at the LHC

    hep-ph 2026-05 unverdicted novelty 5.0

    Incorporating timing information from time-dependent new physics signals can improve LHC search sensitivity by up to a factor of two compared to standard time-invariant analyses.

  3. Precision Solar System Dynamics for Ultralight Dark Matter Search

    hep-ph 2026-06 unverdicted novelty 4.0

    Current interplanetary range measurements could probe ultralight dark matter at masses around 10^{-15} eV if its solar system density were 10^5 times the local value.