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Landau-Zener Lindblad equation and work extraction from coherences

Authordc.contributor.authorThingna, Juzar 
Authordc.contributor.authorEsposito, Massimiliano 
Authordc.contributor.authorBarra de la Guarda, Felipe 
Admission datedc.date.accessioned2019-10-30T15:19:02Z
Available datedc.date.available2019-10-30T15:19:02Z
Publication datedc.date.issued2019
Cita de ítemdc.identifier.citationPhysical Review E, Volumen 99, Issue 4, 2019,
Identifierdc.identifier.issn24700053
Identifierdc.identifier.issn24700045
Identifierdc.identifier.other10.1103/PhysRevE.99.042142
Identifierdc.identifier.urihttps://repositorio.uchile.cl/handle/2250/172174
Abstractdc.description.abstractWe show that the dynamics of a driven quantum system weakly coupled to a finite reservoir can be approximated by a sequence of Landau-Zener transitions if the level spacing of the reservoir is large enough. This approximation can be formulated as a repeated interaction dynamics and leads to a quantum master equation for the driven system which is of Lindblad form. The approach is validated by comparison with the numerically exact full system dynamics. To emphasize the role of coherence in the master equation, we propose a model system which shows that in its presence, work can be extracted from a thermal reservoir while if the coherences vanish, then no work can be extracted.
Lenguagedc.language.isoen
Publisherdc.publisherAmerican Physical Society
Type of licensedc.rightsAttribution-NonCommercial-NoDerivs 3.0 Chile
Link to Licensedc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/3.0/cl/
Sourcedc.sourcePhysical Review E
Keywordsdc.subjectStatistical and Nonlinear Physics
Keywordsdc.subjectStatistics and Probability
Keywordsdc.subjectCondensed Matter Physics
Títulodc.titleLandau-Zener Lindblad equation and work extraction from coherences
Document typedc.typeArtículo de revista
dcterms.accessRightsdcterms.accessRightsAcceso Abierto
Catalogueruchile.catalogadorSCOPUS
Indexationuchile.indexArtículo de publicación SCOPUS
uchile.cosechauchile.cosechaSI


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