Five-Spin Supramolecule for Simulating Quantum Decoherence of Bell States

Selena J. Lockyer; Alessandro Chiesa; Adam Brookfield; Grigore A. Timco; George F.S. Whitehead; Eric J.L. McInnes; Stefano Carretta; Richard E.P. Winpenny

Journal ArticleOPEN ACCESS

Five-Spin Supramolecule for Simulating Quantum Decoherence of Bell States

Journal of the American Chemical Society (2022) 144(35) 16086-16092

DOI: 10.1021/jacs.2c06384

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Abstract

We report a supramolecule that contains five spins of two different types and with, crucially, two different and predictable interaction energies between the spins. The supramolecule is characterized, and the interaction energies are demonstrated by electron paramagnetic resonance (EPR) spectroscopy. Based on the measured parameters, we propose experiments that would allow this designed supramolecule to be used to simulate quantum decoherence in maximally entangled Bell states that could be used in quantum teleportation.

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Lockyer, S. J., Chiesa, A., Brookfield, A., Timco, G. A., Whitehead, G. F. S., McInnes, E. J. L., … Winpenny, R. E. P. (2022). Five-Spin Supramolecule for Simulating Quantum Decoherence of Bell States. Journal of the American Chemical Society, 144(35), 16086–16092. https://doi.org/10.1021/jacs.2c06384

Five-Spin Supramolecule for Simulating Quantum Decoherence of Bell States

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