Non-Linear Axion Dynamics and Formation of Cosmological Pseudo-Solitons
Abstract
The (3+1)-dimensional evolution of an inhomogeneous axion field configuration around the QCD epoch is studied numerically, including important non-linear effects due to the attractive self-interaction. It is found that axion perturbations on scales corresponding to causally disconnected regions at T 1 \, GeV can lead to very dense pseudo-soliton configurations we call axitons. These configurations evolve to axion miniclusters with present density a 10-8\, g \, cm-3. This is high enough for the collisional 2a → 2a process to lead to Bose--Einstein relaxation in the gravitationally bound clumps of axions, forming Bose stars.
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