Baryon number segregation at the end of the cosmological quark-hadron transition

Abstract

One of the most interesting questions regarding a possible first order cosmological quark-hadron phase transition concerns the final fate of the baryon number contained within the disconnected quark regions at the end of the transition. We here present a detailed investigation of the hydrodynamical evolution of an evaporating quark drop, using a multicomponent fluid description to follow the mechanisms of baryon number segregation. With this approach, we are able to take account of the simultaneous effects of baryon number flux suppression at the phase interface, entropy extraction by means of particles having long mean free paths, and baryon number diffusion. A range of computations has been performed to investigate the permitted parameter space and this has shown that significant baryon number concentrations, perhaps even up to densities above that of nuclear matter, represent an inevitable outcome within this scenario.