Stringent Constraints on New Pseudoscalars from Precision Hyperfine Splitting Measurements

Axion-like particles and similar new pseudoscalar bosons coupled to nucleons and electrons are predicted to lead to spin-dependent forces in atoms and ions. We argue that hyperfine structure measurements in the hydrogen- and lithium-like charge states are a sensitive probe to this effect. Employing specific differences of these splittings reduces uncertainties due to nuclear effects in hyperfine structure calculations and measurements. Using this, we show that existing measurements on Be provide competitive limits in the region $m_{\phi}\gtrsim 100\,{\rm keV}$, improving upon existing constraints by up to a factor of $8$. We also find that future measurements on Cs and In have a further order of magnitude improved discovery potential when compared with existing bounds.