Artículo
Self-complementary metasurface for designing narrow band pass/stop filters
Autor/es | Ortiz, Julián D.
Baena, Juan D. Losada Torres, Vicente Medina Mena, Francisco Marqués Sillero, Ricardo Araque Quijano, Javier Leonardo |
Departamento | Universidad de Sevilla. Departamento de Electrónica y Electromagnetismo Universidad de Sevilla. Departamento de Física Aplicada I |
Fecha de publicación | 2013 |
Fecha de depósito | 2020-06-01 |
Publicado en |
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Resumen | A self-complementary metasurface is studied in this paper. The metasurface is a 2-D periodical arrangement of unit cells formed by a metallic printed split ring resonator and its complementary counterpart. It is demonstrated ... A self-complementary metasurface is studied in this paper. The metasurface is a 2-D periodical arrangement of unit cells formed by a metallic printed split ring resonator and its complementary counterpart. It is demonstrated that this structure behaves like a very selective band-pass filter for a certain linear polarization while band-stop filtering is achieved for the orthogonal polarization over the same frequency range. This idea opens the door to a new class of frequency selective surfaces made of connected and unconnected elements, whose filtering properties are mechanically tunable from band-pass to band-stop by rotating the surface or the polarization. |
Identificador del proyecto | 1101-521-29389
CSD2008-00066 TEC2010-16948 |
Cita | Ortiz, J.D., Baena, J.D., Losada Torres, V., Medina Mena, F., Marqués Sillero, R. y Araque Quijano, J.L. (2013). Self-complementary metasurface for designing narrow band pass/stop filters. IEEE Microwave and Wireless Components Letters, 23 (6), 291-293. |
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