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Nonzero-temperature entanglement negativity of quantum spin models: Area law, linked cluster expansions, and sudden death

Nicholas E. ShermanDepartment of Physics, University of California Davis, California 95616, USATrithep DevakulDepartment of Physics, Princeton University, New Jersey 08544, USAMatthew B. HastingsQuantum Architectures and Computation Group, Microsoft Research, Redmond, Washington 98052, USARajiv R. P. SinghDepartment of Physics, University of California Davis, California 95616, USA
2016en
ABI

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We show that the bipartite logarithmic entanglement negativity (EN) of quantum spin models obeys an area law at all nonzero temperatures. We develop numerical linked cluster (NLC) expansions for the "area-law" logarithmic entanglement negativity as a function of temperature and other parameters. For one-dimensional models the results of NLC are compared with exact diagonalization on finite systems and are found to agree very well. The NLC results are also obtained for two dimensional XXZ and transverse field Ising models. In all cases, we find a sudden onset (or sudden death) of negativity at a finite temperature above which the negativity is zero. We use perturbation theory to develop a physical picture for this sudden onset (or sudden death). The onset of EN or its magnitude are insensitive to classical finite-temperature phase transitions, supporting the argument for absence of any role of quantum mechanics at such transitions. On approach to a quantum critical point at T=0, negativity shows critical scaling in size and temperature.

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