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@Article{HasarBuBaSaKaEr:2014:PoAnMu,
               author = "Hasar, U. C. and Bute, M. and Barroso, Joaquim Jos{\'e} and 
                         Sabah, C. and Kaya, Y. and Ertugrul, M.",
          affiliation = "{University of Gaziantep} and {University of Gaziantep} and 
                         {Instituto Nacional de Pesquisas Espaciais (INPE)} and 
                         {University-Northern Cyprus Campus} and {Bayburt University} and 
                         {Ataturk University}",
                title = "Power analysis of multilayer structures composed of conventional 
                         materials and bi-anisotropic metamaterial slabs",
              journal = "Journal of the Optical Society of America B: Optical Physics",
                 year = "2014",
               volume = "31",
               number = "5",
                pages = "939--947",
             keywords = "metamaterials, index measurements.",
             abstract = "In this paper, we analyze wave propagation properties 
                         (transmitted, reflected, and absorbed powers) of composite 
                         multilayer structures consisting of bi-anisotropic metamaterial 
                         (MM) slabs and conventional isotropic materials. We also 
                         separately investigate the propagation properties of 
                         bi-anisotropicMMslabs and conventional materials to better 
                         interpret the results. We consider two different bi-anisotropic MM 
                         slab structures composed of only splitring- resonators (SRRs) and 
                         composing SRRs and a rod. In the analysis, we apply the well-known 
                         transfer matrix method to obtain transmitted, reflected, and 
                         absorbed powers of the composite structures. From the analysis, we 
                         note the following three important results. First, while the 
                         transmitted powers from forward and backward directions of the 
                         multilayer structure are identical (reciprocal feature), reflected 
                         (and absorbed) powers from forward and backward directions of the 
                         multilayer structure are different. This difference arises from 
                         reflection asymmetric nature of the bi-anisotropic MM slabs. 
                         Second, whereas the conventional material loss influences 
                         propagation characteristics aside resonance frequencies of 
                         bi-anisotropic MM slabs, bi-anisotropic MM loss worsens 
                         propagation properties of the multilayer structure at resonance 
                         frequencies of these slabs. Third, variations in (or determination 
                         of) electromagnetic properties of low-loss thin conventional 
                         materials in between two bi-anisotropic MM slabs can be realized 
                         at frequencies in which conventional materials demonstrate 
                         thickness-resonance effect.",
                  doi = "10.1364/JOSAB.31.000939",
                  url = "http://dx.doi.org/10.1364/JOSAB.31.000939",
                 issn = "0740-3224 and 1520-8540",
                label = "scopus 2014-05 HasarBuBaSaKaEr:2014:PoAnMu",
             language = "en",
        urlaccessdate = "26 abr. 2024"
}
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