When axion stars fly through an astrophysical magnetic background, the
axion-to-photon conversion may generate a large electromagnetic radiation
power. After including the interference effects of the spacially-extended
axion-star source and the macroscopic medium effects, we estimate the radiation
power when an axion star meets a neutron star. For a dense axion star with
10−13M⊙​, the radiated power is at the order of
10^{11}\,\mbox{W}\times(100\,\mu\mbox{eV}/m_a)^4\,(B/10^{10}\,\mbox{Gauss})^2
with ma​ as the axion particle mass and B the strength of the neutron star
magnetic field. For axion stars occupy a large fraction of dark matter energy
density, this encounter event with a transient \mathcal{O}(0.1\,\mbox{s})
radio signal may happen in our galaxy with the averaged source distance of one
kiloparsec. The predicted spectral flux density is at the order of μJy for
a neutron star with B∼1013 Gauss. The existing Arecibo, GBT, JVLA and
FAST and the ongoing SKA radio telescopes have excellent discovery potential of
dense axion stars.Comment: 16 pages, 2 figure