Large t cZ as a Sign of Vector-Like Quarks in Light of the W Mass

Abstract

The rare flavour changing top quark decay t cZ is a clear sign of new physics and experimentally very interesting due to the huge number of top quarks produced at the LHC. However, there are few (viable) models which can generate a sizable branching ratio for t cZ -- in fact vector-like quarks seem to be the only realistic option. In this paper, we investigate all three representations (under the Standard Model gauge group) of vector-like quarks (U, Q1 and Q7) that can generate a sizable branching ratio for t cZ without violating bounds from B physics. Importantly, these are exactly the three vector-like quarks which can lead to a sizable positive shift in the prediction for W mass, via the couplings to the top quark also needed for a sizable Br(t cZ). Calculating and using the one-loop matching of vector-like quarks on the Standard Model Effective Field Theory, we find that Br(t cZ) can be of the order of 10-6, 10-5 and 10-4 for U, Q1 and Q7, respectively and that in all three cases the large W mass measurement can be accommodated.