Scalar contributions from 331RHN minimal model to oblique parameters

Abstract

Electroweak precision observables, encoded in the oblique parameters S, T, and U, impose stringent constraints on extensions of the Standard Model. In this work, we analyze the scalar-sector contributions to these parameters within the minimal 331RHN model. Building on previous results obtained in the 331RHN framework, we show that the oblique parameter T provides the dominant constraint on the scalar mass spectrum. Our results indicate that current experimental bounds on T lead to a nontrivial upper limit on the symmetry-breaking scale, ω 10~TeV. These findings highlight the sensitivity of electroweak precision data to the scalar sector of 3-3-1 models and their viability as extensions of the Standard Model.