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ISSN 2415-3400 (Online)
ISSN 1028-821X (Print)

ON THE SPECTRUM OF ELECTROMAGNETIC WAVES IN ONE-DIMENSIONAL DEFECTIVE PHOTON CRYSTAL BORDERING ON CONDUCTING MEDIUM

heading: 
SOLID-STATE AND PLASMA RADIOPHYSICS
Beletskii, NN, Borysenko, SA
Organization: 

O. Ya. Usikov Institute for Radiophysics and Electronics of the National Academy of Sciences of Ukraine
12, Proskura st., Kharkov, 61085, Ukraine
E-mail: beletski@ire.kharkov.ua
https://doi.org/10.15407/rej2016.02.022
Language: Russian
Abstract: 

Currently much attention is paid to investigation of electromagnetic properties of defective photon crystals. This is stipulated by both the occurrence of plasma and defective waves in such crystals and the zone nature of the waves spectrum. One of the most interesting of the electromagnetic properties of the photon crystals is the resonance interaction of plasma and defective waves. It is found that the resonant interaction is observed most distinctly in the second forbidden band of the photon crystal. In this regard, the relevant problem is the study of the properties of the electromagnetic waves in various types of defective photon crystals. This paper is devoted to the study of the effect of resonant interaction of plasma and defective electromagnetic waves in one-dimensional defective photon crystals bordering on a conducting medium subject to the condition that the defective layer is plasma like. It is shown that the best conditions for observing the effect of resonant interaction of plasma and defective electromagnetic waves take place in the case when the defective photon crystal borders on the semiconductor plasma and the magnitude of the dielectric permeability of the defective layer is positive and having an intermediate value between the values of the dielectric permeability of two layers of a unit cell of the photon crystal. The obtained results are of great practical importance for developing new devices of microelectronics and photonics.   
Keywords: conducting medium, defective photon crystal, defective waves, plasma waves, resonant interaction

Manuscript submitted 23.03.2016
PACS     41.20.Jb
Radiofiz. elektron. 2016, 21(2): 22-27
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