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Paper detail

Measurement-based quantum computation with trapped ions

Measurement-based quantum computation (MBQC) represents a powerful and flexible framework for quantum information processing, based on the notion of entangled quantum states as computational resources. The most prominent application is the one-way quantum computer, with the cluster state as its universal resource. Here we demonstrate the principles of MBQC using deterministically generated graph states of up to 7 qubits, in a system of trapped atomic ions. Firstly we implement a universal set of operations for quantum computing. Secondly we demonstrate a family of measurement-based quantum error correction codes, and show their improved performance as the code length is increased. We show that all our graph states violate a multipartite Bell inequality and are therefore capable of information processing tasks that cannot be described by a local hidden variable model. The methods presented can directly be scaled up to generate graph states of several tens of qubits.

preprint2013arXivOpen access
B. P. LanyonP. JurcevicM. ZwergerC. HempelE. A. MartinezW. DürH. J. BriegelR. BlattC. F. Roos
quant-ph
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B. P. LanyonP. JurcevicM. ZwergerC. HempelE. A. MartinezW. DürH. J. BriegelR. BlattC. F. Roos

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