Fault-Tolerant Measurement-Based Quantum Computing with Continuous-Variable Cluster States

Nicolas C. Menicucci

arxiv: 1310.7596 · v3 · pith:WQTDMNELnew · submitted 2013-10-28 · 🪐 quant-ph

Fault-Tolerant Measurement-Based Quantum Computing with Continuous-Variable Cluster States

Nicolas C. Menicucci This is my paper

classification 🪐 quant-ph

keywords clusterfault-tolerantmeasurement-basedquantumstatescodescomputationcontinuous-variable

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A long-standing open question about Gaussian continuous-variable cluster states is whether they enable fault-tolerant measurement-based quantum computation. The answer is yes. Initial squeezing in the cluster above a threshold value of 20.5 dB ensures that errors from finite squeezing acting on encoded qubits are below the fault-tolerance threshold of known qubit-based error-correcting codes. By concatenating with one of these codes and using ancilla-based error correction, fault-tolerant measurement-based quantum computation of theoretically indefinite length is possible with finitely squeezed cluster states.

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Fault-Tolerant Measurement-Based Quantum Computing with Continuous-Variable Cluster States

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