Strong-CP with and without gravity

Abstract

Conventionally, the strong-CP problem is assumed to be a naturalness puzzle, with the axion solution sometimes viewed as an ad hoc fix. Gravity is either ignored or taken as a threat for the global Peccei-Quinn symmetry. We explain that the situation is fundamentally different. In gravity, axion is a matter of consistency imposed by the S-matrix: Each gauge sector must include axion with exact relaxation of the corresponding θ. We show that this favors an alternative and remarkably simple formulation of the axion, fully fixed by the gauge redundancy of QCD, without involvement of a global symmetry. The axion mechanism is a Higgs effect for the QCD 3-form, ensuring that physics is independent of θ to all orders in operator expansion. A near-future experimental detection of the neutron EDM will be an unambiguous signal of CP-violating physics beyond the Standard Model. The axion coupling is tied to the scale of gravity.