Publication: Topologically protected quantum state transfer in a chiral spin liquid
Date
2013
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Springer Nature
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Yao, N.Y., C.R. Laumann, A.V. Gorshkov, H. Weimer, L. Jiang, J.I. Cirac, P. Zoller, and M.D. Lukin. 2013. “Topologically Protected Quantum State Transfer in a Chiral Spin Liquid.” Nature Communications 4 (March 12): 1585. doi:10.1038/ncomms2531.
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Abstract
Topology plays a central role in ensuring the robustness of a wide variety of physical phenomena. Notable examples range from the current-carrying edge states associated with the quantum Hall and the quantum spin Hall effects to topologically protected quantum memory and quantum logic operations. Here we propose and analyse a topologically protected channel for the transfer of quantum states between remote quantum nodes. In our approach, state transfer is mediated by the edge mode of a chiral spin liquid. We demonstrate that the proposed method is intrinsically robust to realistic imperfections associated with disorder and decoherence. Possible experimental implementations and applications to the detection and characterization of spin liquid phases are discussed.
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