Primordial black holes as dark matter: cusp-to-core transition in low-mass dwarf galaxies

We use a high performance fully GPU $N$-body code with adaptive time steps to show that dark matter candidates in the form of primordial black holes can induce a cusp-to-core transition in low-mass dwarf galaxies via dynamical friction by dark matter particles at 1 M$_{\odot}$ mass resolution acting on primordial black holes in the mass range 25 - 100 M$_{\odot}.$ This mechanism requires a lower limit on the primordial black hole mass fraction of 1$\%$ of the total dwarf galaxy dark matter content. The transition time-scale is between 1 and 8 Gyr and depends on the mass, the mass fraction and the scale radius of the initial density profile of the primordial black hole distribution.