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Universal Tripartite Entanglement in One-Dimensional Many-Body Systems

Yijian Zou, Karthik Siva, Tomohiro Soejima, Roger S. K. Mong, Michael P. Zaletel

2021Physical Review Letters65 citationsDOIOpen Access PDF

Abstract

Motivated by conjectures in holography relating the entanglement of purification and reflected entropy to the entanglement wedge cross section, we introduce two related non-negative measures of tripartite entanglement g and h. We prove structure theorems which show that states with nonzero g or h have nontrivial tripartite entanglement. We then establish that in one dimension these tripartite entanglement measures are universal quantities that depend only on the emergent low-energy theory. For a gapped system, we argue that either g≠0 and h=0 or g=h=0, depending on whether the ground state has long-range order. For a critical system, we develop a numerical algorithm for computing g and h from a lattice model. We compute g and h for various CFTs and show that h depends only on the central charge whereas g depends on the whole operator content.

Topics & Concepts

Quantum entanglementCentral chargePhysicsEntropy (arrow of time)Squashed entanglementOperator (biology)Theoretical physicsGround stateQuantum mechanicsLattice (music)Statistical physicsQuantumMathematicsConformal mapMathematical analysisGeneChemistryRepressorTranscription factorBiochemistryAcousticsQuantum many-body systemsBlack Holes and Theoretical PhysicsQuantum Computing Algorithms and Architecture