Pulsar timing array constraints on the cosmological magnetic field from quark confinement epoch
Abstract
Recent evidence for the stochastic gravitational wave backgorund reported by the pulsar timing arrays (PTA) can be interpreted as a signal from the cosmological phase transition. We use up-to-date models of the gravitational wave power spectra to compare constraints on the parameters of the phase transition for the three different available PTA measurements and to work out a refined estimate of the cosmological magnetic field that should result from this transition. We find that the PTA data, combined with a constraint from the abundance of primordial black holes, are consistent with a possibility of a moderate strength first-order phase transition during quark confinement and yield a rather precise prediction for the initial parameters of the magnetic field, with the magnetic field energy density in near equipartition with photon energy density and correlation length close to one co-moving parsec.
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