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Fracton gravity from spacetime dipole symmetry

Evangelos Afxonidis, Alessio Caddeo, Carlos Hoyos, Daniele Musso

2024Physical review. D/Physical review. D.14 citationsDOIOpen Access PDF

Abstract

Dipole charge conservation forces isolated charges to be immobile fractons. These couple naturally to spatial two-index symmetric tensor gauge fields that resemble a spatial metric. We propose a spacetime Lorentz-covariant version of dipole symmetry and study the theory of the associated gauge fields. In the presence of a suitable background field, these contain a massive antisymmetric and a massless symmetric two-index tensors. The latter transforms only under longitudinal diffeomorphisms, making the massless sector similar to linearized gravity, but with additional modes of lower spin. We show that the theory can be consistently coupled to a curved background metric and study its possible interaction terms with itself and with matter. In addition, we construct a map between solutions of linearized gravity in Kerr-Schild form and solutions of fracton gravity coupled to matter. Published by the American Physical Society 2024

Topics & Concepts

SpacetimePhysicsSpacetime symmetriesSymmetry (geometry)Theoretical physicsClassical mechanicsDipoleMathematical physicsQuantum gravityQuantum field theory in curved spacetimeQuantum mechanicsGeometryQuantumMathematicsCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsRelativity and Gravitational Theory
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