Evidence for axion miniclusters with an increased central density

Abstract

We identify axion miniclusters collapsing in the radiation-dominated era and follow them to redshift z=99 with N-body simulations. We find that the majority of the densest miniclusters end up in the center of larger minicluster halos at late times. Soon after their formation, the miniclusters exhibit NFW profiles but they subsequently develop a steeper inner slope approaching r-2 on small scales. Using the so far most highly resolved axion structure formation simulation with 20483 particles we examine the structure of previously studied minicluster halos. While the density profiles of their subhalos are NFW-like we confirm that a modified NFW profile with a steeper inner slope provides a better description for minicluster halos with masses above 10-12\,M. We show that miniclusters with a higher central density might be in contrast to pure NFW halos dense enough to induce gravitational microlensing. Likewise, more compact minicluster halos will have immediate implications for direct and indirect axion detection.