Bondi accretion of dark matter by neutron stars

Xi Huang, Jian-Feng Liu, Wei-Hua Wang, Quan Cheng, Xiao-Ping Zheng

Published 2017-05-24Version 1

In this paper, we have compared two different accretion mechanisms of dark matter particles by a canonical neutron star with $M=1.4~M_{\odot}$ and $R=10~{\rm km}$, and shown the effects of dark matter heating on the surface temperature of star. We should take into account the Bondi accretion of dark matter by neutron stars rather than the accretion mechanism of Kouvaris (2008) \citep{Kouvaris08}, once the dark matter density is higher than $\sim3.81~\rm GeV/cm^3$. Based on the Bondi accretion mechanism and heating of dark matter annihilation, the surface temperature platform of star can appear at $\sim 10^{6.5}$ year and arrive $\sim 1.12\times10^5$ K for the dark matter density of $3.81~\rm GeV/cm^3$, which is one order of magnitude higher than the case of Kouvaris (2008) with dark matter density of $30~\rm GeV/cm^3$.