A modular design of molecular qubits to implement universal quantum gates

The physical implementation of quantum information processing requires individual qubits and entangling gates. Here, the authors demonstrate a modular implementation through chemistry, assembling molecular {Cr7Ni} rings acting as qubits, with supramolecular structures realizing gates by choice of th...

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Autores principales:	Jesús Ferrando-Soria, Eufemio Moreno Pineda, Alessandro Chiesa, Antonio Fernandez, Samantha A. Magee, Stefano Carretta, Paolo Santini, Iñigo J. Vitorica-Yrezabal, Floriana Tuna, Grigore A. Timco, Eric J.L. McInnes, Richard E.P. Winpenny
Formato:	article
Lenguaje:	EN
Publicado:	Nature Portfolio 2016
Materias:	Science Q
Acceso en línea:	https://doaj.org/article/439462e035884bc8aa9c6e42fe190d58
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spelling	oai:doaj.org-article:439462e035884bc8aa9c6e42fe190d582021-12-02T16:50:15ZA modular design of molecular qubits to implement universal quantum gates10.1038/ncomms113772041-1723https://doaj.org/article/439462e035884bc8aa9c6e42fe190d582016-04-01T00:00:00Zhttps://doi.org/10.1038/ncomms11377https://doaj.org/toc/2041-1723The physical implementation of quantum information processing requires individual qubits and entangling gates. Here, the authors demonstrate a modular implementation through chemistry, assembling molecular {Cr7Ni} rings acting as qubits, with supramolecular structures realizing gates by choice of the linker.Jesús Ferrando-SoriaEufemio Moreno PinedaAlessandro ChiesaAntonio FernandezSamantha A. MageeStefano CarrettaPaolo SantiniIñigo J. Vitorica-YrezabalFloriana TunaGrigore A. TimcoEric J.L. McInnesRichard E.P. WinpennyNature PortfolioarticleScienceQENNature Communications, Vol 7, Iss 1, Pp 1-10 (2016)
institution	DOAJ
collection	DOAJ
language	EN
topic	Science Q
spellingShingle	Science Q Jesús Ferrando-Soria Eufemio Moreno Pineda Alessandro Chiesa Antonio Fernandez Samantha A. Magee Stefano Carretta Paolo Santini Iñigo J. Vitorica-Yrezabal Floriana Tuna Grigore A. Timco Eric J.L. McInnes Richard E.P. Winpenny A modular design of molecular qubits to implement universal quantum gates
description	The physical implementation of quantum information processing requires individual qubits and entangling gates. Here, the authors demonstrate a modular implementation through chemistry, assembling molecular {Cr7Ni} rings acting as qubits, with supramolecular structures realizing gates by choice of the linker.
format	article
author	Jesús Ferrando-Soria Eufemio Moreno Pineda Alessandro Chiesa Antonio Fernandez Samantha A. Magee Stefano Carretta Paolo Santini Iñigo J. Vitorica-Yrezabal Floriana Tuna Grigore A. Timco Eric J.L. McInnes Richard E.P. Winpenny
author_facet	Jesús Ferrando-Soria Eufemio Moreno Pineda Alessandro Chiesa Antonio Fernandez Samantha A. Magee Stefano Carretta Paolo Santini Iñigo J. Vitorica-Yrezabal Floriana Tuna Grigore A. Timco Eric J.L. McInnes Richard E.P. Winpenny
author_sort	Jesús Ferrando-Soria
title	A modular design of molecular qubits to implement universal quantum gates
title_short	A modular design of molecular qubits to implement universal quantum gates
title_full	A modular design of molecular qubits to implement universal quantum gates
title_fullStr	A modular design of molecular qubits to implement universal quantum gates
title_full_unstemmed	A modular design of molecular qubits to implement universal quantum gates
title_sort	modular design of molecular qubits to implement universal quantum gates
publisher	Nature Portfolio
publishDate	2016
url	https://doaj.org/article/439462e035884bc8aa9c6e42fe190d58
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A modular design of molecular qubits to implement universal quantum gates

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