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A torsion-balance search for ultra low-mass bosonic dark matter

We used a stationary torsion balance with a beryllium-aluminum composition dipole to search for ultra low-mass bosonic dark matter coupled to baryon minus lepton number. We set 95% confidence limits on the coupling constant $g_{\rm B-L}$ for bosons with masses between $10^{-18}$ and $10^{-16}$ eV/$c^2$ with the best performance at $m_{\rm DM} = 8\times 10^{-18}$ eV/$c^2$ constraining $g_{B-L}(\hbar c)^{-1/2} < 1 \times 10^{-25}$. This provides a complimentary limit to equivalence-principle experiments that search for ultra low-mass bosons as force-mediating particles.

preprint2022arXivOpen access
E. A. ShawM. P. RossC. A. HagedornE. G. AdelbergerJ. H. Gundlach
astro-ph.COgr-qc
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E. A. ShawM. P. RossC. A. HagedornE. G. AdelbergerJ. H. Gundlach

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