Dominant One-Loop Seesaw Contribution Induced by Non-Invertible Fusion Algebra

Abstract

The topological classification of the one-loop Weinberg operator at dimension-5 enables a systematic categorization of radiative neutrino mass models. Among these, the category consisting loop-extended seesaw frameworks is theoretically appealing but conventional discrete or continuous symmetries (e.g., U(1) or ZM) cannot genuinely forbid the corresponding tree-level contributions, making loop dominance difficult to realize. We show that non-invertible selection rules (NISRs) naturally enforce the absence of tree-level terms while ensuring a dominant one-loop contribution. Intriguingly, the same non-invertible structure also stabilizes the dark matter candidate, providing a unified radiative origin of neutrino mass and dark sector stability. In particular, we focus on the T4-2-i topology which embodies a type-II one-loop seesaw and demonstrate its natural realization from Z7 Tambara--Yamagami (TY) fusion algebra.