"Dark" Z implications for Parity Violation, Rare Meson Decays, and Higgs Physics

Abstract

General consequences of mass mixing between the ordinary Z boson and a relatively light Zd boson, the "dark" Z, arising from a U(1)d gauge symmetry, associated with a hidden sector such as dark matter, are examined. New effects beyond kinetic mixing are emphasized. Z-Zd mixing introduces a new source of low energy parity violation well explored by possible future atomic parity violation and planned polarized electron scattering experiments. Rare K (B) meson decays into pi (K) l+ l- (l = e, mu) and pi (K) nu anti-nu are found to already place tight constraints on the size of Z-Zd mixing. Those sensitivities can be further improved with future dedicated searches at K and B factories as well as binned studies of existing data. Z-Zd mixing can also lead to the Higgs decay H -> Z Zd, followed by Z -> l1+ l1- and Zd -> l2+ l2- or "missing energy", providing a potential hidden sector discovery channel at the LHC. An illustrative realization of these effects in a 2 Higgs doublet model is presented.