Higher orders for cosmological phase transitions: a global study in a Yukawa model
Abstract
We perform a state-of-the-art global study of the cosmological thermal histories of a simple Yukawa model, and find higher perturbative orders to be important for determining both the presence and strength of strong first-order phase transitions. Using high-temperature effective field theory, we calculate the free energy density of the model up to O(y5T4), where y is the Yukawa coupling and T is the temperature. The locations of phase transitions are found using the results of lattice Monte-Carlo simulations, and the strength of first-order transitions are evaluated within perturbation theory, to 3-loop order. This is the first global study of any model at this order. Compared to a vanilla 1-loop analysis, accurate to O(y2 T4), reaching such accuracy enables on average a five-fold reduction in the relative error in the predicted critical temperature Tc, and an additional 50\% strong first-order transitions with latent heat L/Tc4 > 0.1 to be identified in our scan.
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