Restrained Dark U(1)d at Low Energies

Abstract

We investigate a spontaneously broken U(1)d gauge symmetry with a muon-specific dark Higgs. Our first goal is to verify how the presence of a new dark Higgs, φ, and a dark gauge boson, V, can simultaneously face the anomalies from the muon magnetic moment and the proton charge radius. Secondly, by assuming that V must decay to an electron-positron pair, we explore the corresponding parameter space determined with the low energy constraints coming from K μ X, electron (g-2)e, K μ μ e+ e-, K μ μ μ+ μ-, τ τ μ μ e+ e-. We focus in the scenario where the V mass is below 2 mμ and the φ mass runs from few MeV till 250 MeV, with V-photon mixing of the order (10-3). Among weak process at low energies, we check the influence of the new light vector on kaon decays as well as on the scattering e+ e- → μ+ μ- e+ e- and discuss the impact of the dark Higgs on e+ e- → μ+ μ- μ+ μ- . Finally, we consider contributions of the V-photon mixing in the decays π0 γ e+ e-, η γ e+ e-, π e+ e-, K* K e+ e- and φ (1020) η e+ e-.