Navegando por Assunto "Ondas plasmônicas"

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Análise de estruturas planares em THz baseadas em grafeno
(Universidade Federal do Pará, 2016-01-28) NASCIMENTO, Clerisson Monte do; DMITRIEV, Victor Alexandrovich; http://lattes.cnpq.br/0684541646225359
In this work we analyse the properties of scattering of electromagnetic waves in graphene surfaces and the planar plasmonic based devices made of the same material, both in THz frequency region. The work is presented in form of four scientific papers. In the first one a numerical analysis of the plasmonic waves propagation in graphene elements is performed. The influence of geometrical configuration, chemical potential variation, angle of incidence and polarizations is analysed. That results give us the information to project two devices (the second and third) based on frequency selective surfaces (FSS) on THz range and that are composed only by graphene elements and dielectric substrates without the insertions of different metals. The first device consists in a THz electromagnetic filter made by an planar array of graphene ring-shaped elements placed in both sides of a dielectric substrate. The second device presents new multifunctional graphene device that can operate either as an electromagnetic, dynamically controlled, filter or as an eletromagnectic switch. Both devices operates based on Fano resonance effect. The fourth paper presents a new method of analysis of periodic planar structure, based on group theory approach. This method takes account the transversal and longitudinal components of induced current in the structure. By using this, one can obtain more information about the device properties than by using exitenting methods, which uses only longitudinal components of the induced currents. As application, we suggest an analyse a periodic array of graphene elements.
Acesso aberto (Open Access)
Circuladores de grafeno de banda ultralarga para região THz
(Universidade Federal do Pará, 2019-06-07) SILVA, Samara Leandro Matos da; DMITRIEV, Victor Alexandrovich; http://lattes.cnpq.br/3139536479960191
Non-reciprocal components are indispensable parts of many microwave and optical systems. In the future, THz communication systems will also require these components. Existing publications show that the bandwidth of graphene-based circulators in the THz region can be 10% to 20% with the use of rather complicated structures. The suggested circulators are formed by a graphene junction with concave pattern connected to the waveguides. Graphene is supported by SiO2/Si layers. The circulating behavior is based on the nonsymmetry of the graphene conductivity tensor that appears due to magnetization by a DC magnetic field normally applied to the plane of the graphene. We discuss the main parameters that define the bandwidth and its influence on it. Circulators have record bandwidth that is twice as high as those published. We have shown that the circulator Y can have the bandwidth of 42% in the frequency range (2.75 ÷ 4.2) THz, with the insulation better than −15 dB and the larger insertion losses that −2 dB, provided by the DC magnetic field polarization of 1.5 T and the chemical potential of 0.15 eV. For the two 4-port circulators we achieved a bandwidth of 44% for the same physical parameters.