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Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/20.500.12222/142
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dc.contributor.authorCesar Leonardo Ordonez-Romero, 0000-0002-0096-2125-
dc.contributor.authorBoris Kalinikos, 0000-0003-4968-1225-
dc.contributor.authorZorayda Lazcano, 0000-0003-2970-1268-
dc.contributor.otherDrozdovskii, Andrey-
dc.contributor.otherAguilar Huerta, Melisa-
dc.contributor.otherDomínguez Juárez, J.L.-
dc.contributor.otherLópez Maldonado, Guillermo-
dc.contributor.otherQureshi, Naser-
dc.contributor.otherKolokoltsev, Oleg-
dc.contributor.otherMonsivais, Guillermo-
dc.date.accessioned2018-06-26T04:55:42Z-
dc.date.available2018-06-26T04:55:42Z-
dc.date.issued2016-
dc.identifier.otherhttp://dx.doi.org/10.1063/1.4958903-
dc.identifier.urihttp://hdl.handle.net/20.500.12222/142-
dc.descriptionThe formation and evolution of spin wave band gaps in the transmission spectrum of a magnonic crystal have been studied. A time and space resolved magneto inductive probing system has been used to map the spin wave propagation and evolution in a geometrically structured yttrium iron garnet film. Experiments have been carried out using a chemically etched magnonic crystal supporting the propagation of magnetostatic surface spin waves, a short microwave pulsed excitation of the spin waves, and (3) direct spin wave detection using a movable magneto inductive probe connected to a synchronized fast oscilloscope. The results show that the periodic structure not only modifies the spectra of the transmitted spin waves but also influences the distribution of the spin wave energy inside the magnonic crystal as a function of the position and the transmitted frequency. These results comprise an experimental confirmation of Bloch′s theorem in a spin wave system and demonstrate good agreement with theoretical observations in analogue phononic and photonic systems. Theoretical prediction of the structured transmission spectra is achieved using a simple model based on microwave transmission lines theory. Here, a spin wave system illustrates in detail the evolution of a much more general physical concept: the band gap.es_MX
dc.formatapplication/pdfes_MX
dc.languageenges_MX
dc.publisherAmerican Institute of Physicses_MX
dc.rightsAttribution-NonCommercial-NoDerivatives 4.0 Internacional*
dc.rights.urihttps://www.scitation.org/termses_MX
dc.subjectCIENCIAS FÍSICO MATEMÁTICAS Y CIENCIAS DE LA TIERRAes_MX
dc.titleMapping of spin wave propagation in a one-dimensional magnonic cristales_MX
dc.typearticlees_MX
dc.rights.licensehttp://creativecommons.org/licenses/by-nc-nd/4.0/*
dc.rights.licenseinfo:eu-repo/semantics/restrictedAccesses_MX
dc.subject.keywordsOndas espínes_MX
dc.subject.keywordsCristal magnónicoes_MX
dc.subject.keywordsMapeoes_MX
dc.subject.keywordsPropagaciónes_MX
dc.subject.keywordsSuperficies Magnetostáticases_MX
dc.subject.keywordsMicroondases_MX
dc.subject.keywordsOsciloscopioes_MX
dc.subject.keywordsSistemas de ondases_MX
dc.type.versioninfo:eu-repo/semantics/publishedVersiones_MX
dc.coverageUSes_MX
dc.audienceresearcherses_MX
dc.identificador.materia1es_MX
dc.source.otherJournal of Applied Physics (4) vol.120 (2016)es_MX
dc.source.otherISSN: 0021-8979es_MX
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