Probing muon anomaly and lepton flavor violation with scalar leptoquarks in the 331LHN model

Abstract

We extend the SU(3)C × SU(3)L × U(1)X model with neutral leptons (331LHN) by introducing scalar leptoquarks. We determine the particle content of the leptoquark multiplets and their Yukawa interactions with fermions. We find that a singlet leptoquark can fully account for the 4.2σ discrepancy in the muon anomalous magnetic moment aμ2021. The corresponding leptoquark mass is constrained to be mS 1.8~TeV, consistent with current LHC bounds. We further consider the updated aμ2025 based on recent lattice QCD results, which strengthen the lower bound to mS 6~TeV. Combining aμ with low-energy leptonic observables, including charged lepton flavor violation and the μ--e conversion rate, we constrain the viable parameter space. The allowed leptoquark Yukawa couplings exhibit a normal hierarchical pattern under all constraints. We also investigate the collider phenomenology of the singlet leptoquark, showing that its QCD-driven pair production leads to suppressed signal rates at the LHC for multi-TeV masses, while future hadron colliders can significantly extend the discovery reach.