Searching for axion dark matter with MeerKAT Radio Telescope

Abstract

Axions provide a natural and well-motivated dark matter candidate, with the capability to convert directly to photons in the presence of an electromagnetic field. A particularly compelling observational target is the conversion of dark matter axions into photons in the magnetospheres of highly magnetised neutron stars, which is expected to produce a narrow spectral peak centred at the frequency of the axion mass. We point the MeerKAT radio telescope towards the isolated neutron star J0806.4-4123 for 10-hours of observation and obtain the radio spectra in the frequency range 769-1051 MHz. By modelling the conversion process of infalling axion dark matter (DM), we then compare these spectra to theoretical expectations for a given choice of axion parameters. Whilst finding no signal above 5σ in the data, we provide a unique constraint on the Primakoff coupling of axion DM, g aγγ 9.3 × 10-12\, GeV-1 at the 95\% confidence level, in the mass range 3.18-4.35\,μeV. This result serves the strongest constraint in the axion mass range 4.20-4.35\,μeV.