Entanglement in BF theory. Part I. Essential topological entanglement
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We study the entanglement structure of Abelian topological order described by p-form BF theory in arbitrary dimensions. We do so directly in the low-energy topological quantum field theory by considering the algebra of topological surface operators. We define two appropriate notions of subregion operator algebras which are related by a form of electric-magnetic duality. To each subregion algebra we assign an entanglement entropy which we coin essential topological entanglement. This is a refinement to the traditional topological entanglement entropy. It is intrinsic to the theory, inherently finite, positive, and sensitive to more intricate topological features of the state and the entangling region. This paper is the first in a series of papers investigating entanglement and topological order in higher dimensions.
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Acknowledgements: We thank Sean Hartnoll, Diego Hofman, Diego Liska, Onkar Parrikar, and Ronak Soni for fun and enlightening discussions. JRF thanks Rob Leigh and Matthew Lapa for conversations inspiring this work. JRF thanks the University of Amsterdam for hospitality. SV thanks the University of Cambridge and the Kavli Instintute for Theoretical Physics at UCSB for hospitality. Research at KITP was supported in part by the National Science Foundation under Grant No. NSF PHY-1748958. JRF is supported by STFC consolidated grant ST/T000694/1 and by Simons Foundation Award number 620869. SV is supported by the NWO Spinoza prize awarded to Erik Verlinde.
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