G. Ban scite author profile

G. Ban

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Search for ultralight axion dark matter in a side-band analysis of a ${}^{199}$Hg free-spin precession signal

Abel¹,

Ayres²,

Ban³

et al. 2023

SciPost Phys.

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Ultra-low-mass axions are a viable dark matter candidate and may form a coherently oscillating classical field. Nuclear spins in experiments on Earth might couple to this oscillating axion dark-matter field, when propagating on Earth’s trajectory through our Galaxy. This spin coupling resembles an oscillating pseudo-magnetic field which modulates the spin precession of nuclear spins. Here we report on the null result of a demonstration experiment searching for a frequency modulation of the free spin-precession signal of 199Hg in a magnetic field. Our search covers the axion mass range 10^{-16} \textrm{eV} \lesssim m_a \lesssim 10^{-13} \textrm{eV}10−16eV≲ma≲10−13eV and achieves a peak sensitivity to the axion-nucleon coupling of g_{aNN} \approx 3.5 \times 10^{-6} \textrm{GeV}^{-1}gaNN≈3.5×10−6GeV−1.

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Search for ultralight axion dark matter in a side-band analysis of a 199Hg free-spin precession signal

Abel¹,

Ayres²,

Ban³

et al. 2022

Preprint

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G. Ban

Search for ultralight axion dark matter in a side-band analysis of a ${}^{199}$Hg free-spin precession signal

Search for ultralight axion dark matter in a side-band analysis of a 199Hg free-spin precession signal

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