Author: ["Qiang Zhang","Alexander Goebel","Claudia Wagenknecht","Yu-Ao Chen","Bo Zhao","Tao Yang","Alois Mair","Jörg Schmiedmayer","Jian-Wei Pan"]
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Abstract
Quantum teleportation1, a way to transfer the state of a quantum system from one location to another, is central to quantum communication2 and plays an important role in a number of quantum computation protocols3,4,5. Previous experimental demonstrations have been implemented with single photonic6,7,8,9,10,11 or ionic qubits12,13. However, teleportation of single qubits is insufficient for a large-scale realization of quantum communication and computation2,3,4,5. Here, we present the experimental realization of quantum teleportation of a two-qubit composite system. In the experiment, we develop and exploit a six-photon interferometer to teleport an arbitrary polarization state of two photons. The observed teleportation fidelities for different initial states are all well beyond the state estimation limit of 0.40 for a two-qubit system14. Not only does our six-photon interferometer provide an important step towards teleportation of a complex system, it will also enable future experimental investigations on a number of fundamental quantum communication and computation protocols3,15,16,17,18.Cite this article
Zhang, Q., Goebel, A., Wagenknecht, C. et al. Experimental quantum teleportation of a two-qubit composite system. Nature Phys 2, 678–682 (2006). https://doi.org/10.1038/nphys417 