Revisiting SU(5) Yukawa Sectors Through Quantum Corrections
Abstract
This article revisits the validity of tree-level statements regarding the Yukawa sector of various minimal-renormalisable SU(5) frameworks at the loop level. It is well-known that an SU(5) model with only the 45H dimensional irreducible representation~(irrep) contributing to the Yukawa sector is highly incompatible in yielding the low-energy observables. However, this study shows that when one-loop corrections from heavy degrees of freedom are included in the various Yukawa vertices, the model can accurately reproduce the charged fermion mass spectrum and mixing angles. Furthermore, the fitted couplings remain within the perturbative range. The fitted parameters also necessitate mass splitting among various scalars of 45H dimensional irrep, with at least one scalar's mass differing by as much as 13 orders of magnitude from the matching scale (MGUT), collectively providing substantial threshold corrections. As an extension, the minimal SU(5) model with only the 45H irrep is augmented with the 15H-dimensional irrep, which also successfully reproduces the observed charged and neutral fermion mass spectra. Finally, the study considers an alternative SU(5) model incorporating both 5H and 15H irreps, which also yields the desired fermion mass spectra and mixing angles. This work demonstrates the viability of a minimal SU(5) Yukawa sector in different setups when quantum corrections are considered.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.