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Entanglement Theory Quantum Correlations
Entanglement negativity between separated regions in quantum critical systems
arXiv
Authors: Gilles Parez, William Witczak-Krempa
Year
2023
Paper ID
53522
Status
Preprint
Abstract Read
~2 min
Abstract Words
149
Citations
N/A
Abstract
We study the entanglement between disjoint subregions in quantum critical systems through the lens of the logarithmic negativity. We work with systems in arbitrary dimensions, including conformal field theories and their corresponding lattice Hamiltonians, as well as resonating valence-bond states. At small separations, the logarithmic negativity is big and displays universal behavior, but we show non-perturbatively that it decays faster than any power at large separations. This can already be seen in the minimal setting of single-spin subregions. The corresponding absence of distillable entanglement at large separations generalizes the 1d result, and indicates that quantum critical groundstates do not possess long-range bipartite entanglement, at least for bosons. For systems with fermions, a more suitable definition of the logarithmic negativity exists that takes into account fermion parity, and we show that it decays algebraically. Along the way we obtain general results for the moments of the partially transposed density matrix.
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- This paper contributes to the Entanglement Theory & Quantum Correlations research area in the Quantum Articles archive.
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- We study the entanglement between disjoint subregions in quantum critical systems through the lens of the logarithmic negativity.
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