Abstract
AbstractThe effective potential obtained by loop expansion is usually not real in the range of field values explored by its minima during a phase transition. We apply the optimized perturbation theory in a fixed gauge to singlet scalar extensions of the Standard Model in order to calculate a one-loop effective potential that is real by construction. We test this computational scheme by comparing such a potential obtained in Landau gauge to that derived based on the Higgs pole mass. We carry out the latter construction by imposing physical renormalization conditions, which yields a potential without residual regularization scale dependence. We use our effective potential to study the parameter dependence of the critical temperatures in a two-step phase transition of the form (0,0) → (0, w′) → (v, w) that occurs for decreasing temperature in scalar extensions of the SM with two vacuum expectation valuesvandw.
Publisher
Springer Science and Business Media LLC
Subject
Nuclear and High Energy Physics
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