Kinetic mixing, custodial symmetry and a lower bound on the dark Z mass

Abstract

In this work we consider the extension of the standard model by dark fields with an Abelian U(1)d spontaneously broken gauge symmetry in a hidden dark matter scenario. Considering all the dimension four gauge invariant terms we show that the tree-level relation M2W=M2 Z 2 θw holds and permits to write the mixing angle induced by the kinetic mixing in the neutral massive gauge boson sector, θζ, in terms of the values of MZ, the weak mixing angle and of the mass of the physical dark gauge Z boson. At the loop level, a similar relation is obtained in the MS scheme. Using the result extracted from the global fit to electroweak precision data for the ratio 0=M2W/c2Z M2Z, we obtain a lower bound MZ> MZ for the dark Z mass at the 94\% confidence level. We argue that this lower bound holds in the general case of theories for physics beyond the standard model with an extra U(1) gauge factor subgroup, whenever the extended Higgs potential respects custodial symmetry.