Searching for Heavy Leptophilic Z': from Lepton Colliders to Gravitational Waves

Abstract

We study the phenomenology of leptophilic Z' gauge bosons at the future high-energy e+e- and μ+μ- colliders, as well as at the gravitational wave observatories. The leptophilic Z' model, although well-motivated, remains largely unconstrained from current low-energy and collider searches for Z' masses above O(100~ GeV), thus providing a unique opportunity for future lepton colliders. Taking U(1)Lα-Lβ~(α,β=e,μ,τ) models as concrete examples, we show that future e+e- and μ+μ- colliders with multi-TeV center-of-mass energies provide unprecedented sensitivity to heavy leptophilic Z' bosons. Moreover, if these U(1) models are classically scale-invariant, the phase transition at the U(1) symmetry-breaking scale tends to be strongly first-order with ultra-supercooling, and leads to observable stochastic gravitational wave signatures. We find that the future sensitivity of gravitational wave observatories, such as advanced LIGO-VIRGO and Cosmic Explorer, can be complementary to the collider experiments, probing higher Z' masses up to O(104~ TeV), while being consistent with naturalness and perturbativity considerations.