Desing and model of piezoelectromagnetic metamaterials

dc.audiencegeneralPublic
dc.contributorPérez Rodríguez, Felipe
dc.contributor.advisorPEREZ RODRIGUEZ, FELIPE; 8318
dc.contributor.authorKonovalenko, Anatolii
dc.creatorKONOVALENKO, ANATOLII; 562477
dc.date.accessioned2019-05-24T16:54:25Z
dc.date.available2019-05-24T16:54:25Z
dc.date.issued2017-09
dc.description.abstract"This dissertation introduces a novel theory of piezoelectromagnetic crystal homogenization which provides the basis to characterize media with nonlocal piezoelectric and piezomagnetic properties, normally described by material tensors. The introduced formalism extends the conventional homogenization theory which can not predict the dispersion of certain resonant structures of the electromagnetoelastic medium beyond the long wavelength limit. Specifically, the existence of the negative refraction index for photonic crystals and negative dynamic mass density and bulk modulus for phononic crystals can not be predicted by classical formalisms. The new theory is able to describe accurately the physical parameters of the homogenized electromagnetoelastic medium, even for wavelengths comparable with the characteristic period of the crystal lattice. The results of the novel theory application to the photonic and phononic crystals show a very good correspondence with those of other homogenization theories with the assumption of weak piezoelectric and piezomagnetic efects. Furthermore, a metamaterial transformation of the nonlocal response of the homogenized piezoelectromagnetic medium is proposed. The developed theory of the metamaterial response was applied to well-known metamaterials (2D system of metallic wires, split-ring resonators) and for introducing a new symmetric window resonators metamaterials with enhanced properties. The experimental study of the window resonators proved the correctness of the new formalism predictions. An important advantage of the proposed homogenization theory is that it allows to calculate reflectivity and transmission coefficients for finite-size samples in the nonlocal regime."
dc.folio541417T
dc.formatpdf
dc.identificator1
dc.identifier.urihttps://hdl.handle.net/20.500.12371/1147
dc.language.isoeng
dc.matricula.creator213570986
dc.publisherBenemérita Universidad Autónoma de Puebla
dc.rights.accesopenAccess
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/4
dc.subject.classificationCiencias Físico Matemáticas y Ciencias de la Tierra
dc.subject.lccMetamateriales
dc.subject.lccPiezoelectricidad
dc.thesis.careerDoctorado en Ciencias (en la Especialidad de Ciencia de Materiales)
dc.thesis.degreedisciplineÁrea de Ingeniería y Ciencias Exactas
dc.thesis.degreegrantorInstituto de Física "Ing. Luis Rivera Terrazas"
dc.thesis.degreeinstInstituto de Física "Ing. Luis Rivera Terrazas"
dc.titleDesing and model of piezoelectromagnetic metamaterials
dc.typeTesis
dc.type.conacytdoctoralThesis
dc.type.degreeDoctorado
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