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arxiv: 1903.08667 · v2 · pith:2JYWGF5Enew · submitted 2019-03-20 · 🪐 quant-ph

Enhanced Multi-Qubit Phase Estimation in Noisy Environments by Local Encoding

classification 🪐 quant-ph
keywords encodinglocalerrormulti-qubitnoisycorrectiondevicesenvironments
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The first generation of multi-qubit quantum technologies will consist of noisy, intermediate-scale devices for which active error correction remains out of reach. To exploit such devices, it is thus imperative to use passive error protection that meets a careful trade-off between noise protection and resource overhead. Here, we experimentally demonstrate that single-qubit encoding can significantly enhance the robustness of entanglement and coherence of four-qubit graph states against local noise with a preferred direction. In particular, we explicitly show that local encoding provides a significant practical advantage for phase estimation in noisy environments. This demonstrates the efficacy of local unitary encoding under realistic conditions, with potential applications in multi-qubit quantum technologies for metrology, multi-partite secrecy and error correction.

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