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Paper detail

Verifying Multipartite Entangled GHZ States via Multiple Quantum Coherences

The ability to generate and verify multipartite entanglement is an important benchmark for near-term quantum devices devices. We develop a scalable entanglement metric based on multiple quantum coherences, and demonstrate experimentally on a 20-qubit superconducting device - the IBM Q System One. We report a state fidelity of 0.5165$\pm$0.0036 for an 18-qubit GHZ state, indicating multipartite entanglement across all 18 qubits. Our entanglement metric is robust to noise and only requires measuring the population in the ground state; it can be readily applied to other quantum devices to verify multipartite entanglement.

preprint2019arXivOpen access
Ken X. WeiIsaac LauerSrikanth SrinivasanNeereja SundaresanDouglas T. McClureDavid ToyliDavid C. McKayJay M. GambettaSarah Sheldon
quant-ph
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Ken X. WeiIsaac LauerSrikanth SrinivasanNeereja SundaresanDouglas T. McClureDavid ToyliDavid C. McKayJay M. GambettaSarah Sheldon

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