Towards practical characterization of quantum systems with quantum Hamiltonian learning

R. Santagati; J. Wang; S. Paesani; S. Knauer; A. A. Gentile; N. Wiebe; M. Petruzzella; J. L. O’Brien; J. G. Rarity; A. Laing; M. G. Thompson

doi:10.1364/FIO.2017.FTh3E.7

Frontiers in Optics 2017
OSA Technical Digest (online) (Optica Publishing Group, 2017),
paper FTh3E.7
•https://doi.org/10.1364/FIO.2017.FTh3E.7

Towards practical characterization of quantum systems with quantum Hamiltonian learning

R. Santagati, J. Wang, S. Paesani, S. Knauer, A. A. Gentile, N. Wiebe, M. Petruzzella, J. L. O’Brien, J. G. Rarity, A. Laing, and M. G. Thompson

Frontiers in Optics 2017

Washington, D.C. United States
18–21 September 2017
ISBN: 978-1-943580-33-0

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Quantum Simulation, Communication and Entanglement (FTh3E)

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R. Santagati, J. Wang, S. Paesani, S. Knauer, A. A. Gentile, N. Wiebe, M. Petruzzella, J. L. O’Brien, J. G. Rarity, A. Laing, and M. G. Thompson, "Towards practical characterization of quantum systems with quantum Hamiltonian learning," in Frontiers in Optics 2017, OSA Technical Digest (online) (Optica Publishing Group, 2017), paper FTh3E.7.

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Abstract

Here we show the first experimental implementation of quantum Hamiltonian Learning, where a silicon-on-insulator quantum photonic simulator is used to learn the dynamics of an electron-spin in an NV center in diamond.

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