Modulated Continuous Wave Control for Energy-Efficient Electron-Nuclear Spin Coupling

Casanova, Jorge; Torrontegui Muñoz, Erik; Plenio, Martin B.; García-Ripoll, Juan José; Solano, Enrique

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dc.contributor.author	Casanova, Jorge
dc.contributor.author	Torrontegui Muñoz, Erik
dc.contributor.author	Plenio, Martin B.
dc.contributor.author	García-Ripoll, Juan José
dc.contributor.author	Solano, Enrique
dc.date.accessioned	2021-03-12T10:48:44Z
dc.date.available	2021-03-12T10:48:44Z
dc.date.issued	2019-01-11
dc.identifier.bibliographicCitation	Casanova, J., Torrontegui, E., Plenio, M. B., García-Ripoll, J. J., Solano, E. (2019). Modulated Continuous Wave Control for Energy-Efficient Electron-Nuclear Spin Coupling. Physical Review Letters, 122(1).
dc.identifier.issn	0031-9007
dc.identifier.uri	http://hdl.handle.net/10016/32123
dc.description.abstract	We develop energy efficient, continuous microwave schemes to couple electron and nuclear spins, using phase or amplitude modulation to bridge their frequency difference. These controls have promising applications in biological systems, where microwave power should be limited, as well as in situations with high Larmor frequencies due to large magnetic fields and nuclear magnetic moments. These include nanoscale NMR where high magnetic fields achieves enhanced thermal nuclear polarization and larger chemical shifts. Our controls are also suitable for quantum information processors and nuclear polarization schemes.
dc.description.sponsorship	E. S. and J. C. acknowledge financial support from Spanish MINECO/FEDER FIS2015-69983-P, Basque Government IT986-16, as well as from QMiCS (820505) and OpenSuperQ (820363) of the EU Flagship on Quantum Technologies. J. C. acknowledges support by the Juan de la Cierva Grant No. IJCI-2016-29681. E. T. and J. J. G. R. acknowledge support from Spanish MINECO/FEDER Project No. FIS2015-70856-P, No. FIS2016-81891-REDT and CAM PRICYT Project QUITEMAD þ CM No. S2013-ICE2801. M. B. P. acknowledges support by the ERC Synergy grant BioQ (Grant No. 319130), the EU project HYPERDIAMOND, the QuantERA project NanoSpin, the BMBF project DiaPol, the state of Baden-Württemberg through bwHPC, and the German Research Foundation (DFG) through Grant No. INST 40/467-1 FUGG. This material is also based upon work supported by the U.S. Department of Energy, Office of Science, Office of Advance Scientific Computing Research (ASCR), Quantum Algorithms Teams project under field work proposal ERKJ335.
dc.format.extent	6
dc.language.iso	eng
dc.publisher	American Physical Society
dc.rights	© 2019 American Physical Society
dc.subject.other	Quantum control
dc.subject.other	Quantum sensing
dc.subject.other	Nitrogen vacancy centers in diamond
dc.subject.other	Atomic, molecular & optical
dc.title	Modulated Continuous Wave Control for Energy-Efficient Electron-Nuclear Spin Coupling
dc.type	article
dc.subject.eciencia	Física
dc.identifier.doi	https://doi.org/10.1103/PhysRevLett.122.010407
dc.rights.accessRights	openAccess
dc.relation.projectID	Gobierno de España. FIS2015-69983-P
dc.relation.projectID	Gobierno de España. FIS2015-70856-P
dc.relation.projectID	Gobierno de España. FIS2016-81891-REDT
dc.relation.projectID	Comunidad de Madrid. S2013-ICE2801
dc.type.version	publishedVersion
dc.identifier.publicationfirstpage	010407-1
dc.identifier.publicationissue	1
dc.identifier.publicationlastpage	010407-6
dc.identifier.publicationtitle	Physical Review Letters
dc.identifier.publicationvolume	122
dc.identifier.uxxi	AR/0000026549
dc.contributor.funder	Ministerio de Economía y Competitividad (España)
dc.contributor.funder	Comunidad de Madrid
dc.affiliation.dpto	UC3M. Departamento de Física
dc.affiliation.grupoinv	UC3M. Grupo de Investigación: Materiales Nano-Estructurados y Multifuncionales