Experimental Realization of a Four-Photon Seven-Qubit Graph State for One-Way Quantum Computation

Dong-Hoon Lee; Hee Su Park; Heonoh Kim; Jae Yong Lee; Jaeyoon Cho; Sang-Kyung Choi; Sang Min Lee; Yoonshik Kang

arxiv: 1105.5211 · v2 · pith:W6OPRQDEnew · submitted 2011-05-26 · 🪐 quant-ph

Experimental Realization of a Four-Photon Seven-Qubit Graph State for One-Way Quantum Computation

Sang Min Lee , Hee Su Park , Jaeyoon Cho , Yoonshik Kang , Jae Yong Lee , Heonoh Kim , Dong-Hoon Lee , Sang-Kyung Choi This is my paper

classification 🪐 quant-ph

keywords graphstatepathqubitsseven-qubitalgorithmcomposedcomputation

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We propose and demonstrate the scaling up of photonic graph state through path qubit fusion. Two path qubits from separate two-photon four-qubit states are fused to generate a two-dimensional seven-qubit graph state composed of polarization and path qubits. Genuine seven-qubit entanglement is verified by evaluating the witness operator. Six qubits from the graph state are used to execute the general two-qubit Deutsch-Jozsa algorithm with a success probability greater than 90%.

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Experimental Realization of a Four-Photon Seven-Qubit Graph State for One-Way Quantum Computation

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