Gauging Away the Strong CP Problem

Abstract

We propose a new solution to the strong-CP problem. It involves the existence of an unbroken gauged U(1)X symmetry whose gauge boson gets a Stuckelberg mass term by combining with a pseudoscalar field η (x). The latter has axion-like couplings to FQCD FQCD so that the theta parameter may be gauged away by a U(1)X gauge transformation. This system leads to mixed gauge anomalies and we argue that they are cancelled by the addition of an appropriate Wess-Zumino term, so that no SM fermions need to be charged under U(1)X. We discuss scenarios in which the above set of fields and couplings appear. The mechanism is quite generic, but a natural possibility is that the the U(1)X symmetry arises from bulk gauge bosons in theories with extra dimensions or string models. We show that in certain D-brane Type-II string models (with antisymmetric tensor field strength fluxes) higher dimensional Chern-Simons couplings give rise to the required D=4 Wess-Zumino terms upon compactification. In one of the possible string realizations of the mechanism the U(1)X gauge boson comes from the Kaluza-Klein reduction of the eleven-dimensional metric in M-theory.

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