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Hydrodynamics of dipole-conserving fluids

Aleksander Głódkowski, Francisco Peña-Benítez, Piotr Surówka

2023Physical review. E32 citationsDOIOpen Access PDF

Abstract

Dipole-conserving fluids serve as examples of kinematically constrained systems that can be understood on the basis of symmetry. They are known to display various exotic features including glassylike dynamics, subdiffusive transport, and immobile excitations' dubbed fractons. Unfortunately, such systems have so far escaped a complete macroscopic formulation as viscous fluids. In this work, we construct a consistent hydrodynamic description for fluids invariant under translation, rotation, and dipole shift symmetry. We use symmetry principles to formulate a thermodynamic theory for dipole-conserving systems at equilibrium and apply irreversible thermodynamics in order to elucidate dissipative effects. Remarkably, we find that the inclusion of the energy conservation not only renders the longitudinal modes diffusive rather than subdiffusive but also diffusion is present even at the lowest order in the derivative expansion. This work paves the way towards an effective description of many-body systems with constrained dynamics such as ensembles of topological defects, fracton phases of matter, and certain models of glasses.

Topics & Concepts

Dissipative systemPhysicsDipoleNon-equilibrium thermodynamicsStatistical physicsSymmetry (geometry)Classical mechanicsWork (physics)Translational symmetryTheoretical physicsInvariant (physics)FractonQuantum mechanicsCondensed matter physicsMathematicsMathematical analysisFractalGeometryTheoretical and Computational PhysicsMaterial Dynamics and PropertiesAdvanced Thermodynamics and Statistical Mechanics
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