Topological Entanglement Entropy

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Alexei Kitaev^1,2 and John Preskill¹
¹Institute for Quantum Information, California Institute of Technology, Pasadena, California 91125, USA
²Microsoft Research, One Microsoft Way, Redmond, Washington 98052, USA

Received 13 October 2005; published 24 March 2006

Weformulate a universal characterization of the many-particle quantum entanglement inthe ground state of a topologically ordered two-dimensional medium witha mass gap. We consider a disk in the plane,with a smooth boundary of length L, large compared tothe correlation length. In the ground state, by tracing outall degrees of freedom in the exterior of the disk,we obtain a marginal density operator rho for the degreesof freedom in the interior. The von Neumann entropy of rho , a measure of the entanglement of the interior andexterior variables, has the form S( rho )= alpha L- gamma + [centered ellipsis] , where the ellipsis representsterms that vanish in the limit L --> [infinity] . We show that- gamma is a universal constant characterizing a global feature ofthe entanglement in the ground state. Using topological quantum fieldtheory methods, we derive a formula for gamma in termsof properties of the superselection sectors of the medium.

URL:	http://link.aps.org/doi/10.1103/PhysRevLett.96.110404
DOI:	10.1103/PhysRevLett.96.110404
PACS:	03.65.Ud; 03.67.Mn; 71.10.Pm; 73.43.Nq 03.65.Ud Entanglement and quantum nonlocality (e.g. EPR paradox, Bell's inequalities, GHZ states, etc.) 03.67.Mn Quantum entanglement production, characterization, and manipulation 71.10.Pm Fermions in reduced dimensions (condensed matter) including anyons, composite fermions, Luttinger liquid, etc 73.43.Nq Quantum phase transitions (quantum Hall effect) YEAR: 2006
KEYWORDS:	quantum entanglement, quantum field theory, ground states, entropy, many-body problems, fermion systems