An anomaly-free leptophilic U(1)' completion of the Standard Model

Abstract

We develop a minimal and fully anomaly-free realization of a universal leptophilic U(1)' gauge symmetry, under which all Standard-Model leptons carry a common charge while quarks remain neutral. Gauge consistency is restored by introducing one vectorlike lepton family and singlet scalars whose vacuum expectation values both break U(1)' and generate masses for the new gauge boson Z and the heavy leptons. We derive compact anomaly-cancellation conditions, closed-form Z couplings and decay widths, and the structure of gauge--kinetic mixing, including the trace condition Tr(YQ')=0 that suppresses radiative mixing. The setup naturally embeds a type-I seesaw for neutrino masses and provides a stable singlet field as a minimal dark-matter candidate. Collider and precision constraints are expressed analytically over the full parameter space, covering pure leptophilic production, small-mixing hadron colliders, and the contact-interaction limit MZ\!\!s. The model therefore provides a single, internally consistent benchmark that unifies gauge, scalar, Yukawa, neutrino, and dark-matter sectors, and is directly suited for global data recasts and targeted searches at future lepton and hadron colliders.

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