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Trapped Ion Quantum Computing
Characterization of topological states via dual multipartite entanglement
arXiv
Authors: Yu-Ran Zhang, Yu Zeng, Heng Fan, J. Q. You, Franco Nori
Year
2017
Paper ID
24501
Status
Preprint
Abstract Read
~2 min
Abstract Words
132
Citations
N/A
Abstract
We demonstrate that multipartite entanglement is able to characterize one-dimensional symmetry-protected topological order, which is witnessed by the scaling behavior of the quantum Fisher information of the ground state with respect to the spin operators defined in the dual lattice. We investigate an extended Kitaev chain with a mathbf{Z} symmetry identified equivalently by winding numbers and paired Majorana zero modes at each end. The topological phases with high winding numbers are detected by the scaling coefficient of the quantum Fisher information density with respect to generators in different dual lattices. Containing richer properties and more complex structures than bipartite entanglement, the dual multipartite entanglement of the topological state has promising applications in robust quantum computation and quantum metrology, and can be generalized to identify topological order in the Kitaev honeycomb model.
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- We demonstrate that multipartite entanglement is able to characterize one-dimensional symmetry-protected topological order, which is witnessed by the scaling behavior of the...
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