An effective gauge theory of fractons: perturbative and non-local aspects

We construct, from first principles, a covariant local model for scalar fractonic matter coupled to a symmetric tensor gauge field. The free gauge field action is just the one of Blasi-Maggiore model. The scalar sector is a non-trivial covariant generalization of Pretko's quartic model. Because the model has no quadratic term in the scalar field, a direct perturbative treatment fails. Remarkably, we demonstrate that the action can be driven to a perturbative effective action. However, with the price of carrying non-local interacting terms. We study the perturbative regime of the model and show that there are at least four distinct phases in the model: One with massive fractonic modes; one with massless fractons; a mixed phase with massive and massless fractons; and another one where fractons cannot occur at all in the physical spectrum.