Title :
Amplification of electromagnetic radiation from 3D photonic crystals with quantum-dot gain material inclusions
Author_Institution :
Dept. of Theoretic Radiophys., Inst. of Radio Astron., Kharkiv, Ukraine
Abstract :
In this paper the scattering characteristics are calculated with the technique based on the volume integral equations for polarization currents. A study of electromagnetic field interaction with the 3D lattice dielectric structure involved defect layer and gain material is performed in this paper. An effect of gain material parameters on the amplification level of the structure is investigated. Distributions of the internal electric field intensity over the periodic cell are presented.
Keywords :
amplification; electromagnetic wave scattering; electromagnetic wave transmission; integral equations; multilayers; permittivity; photonic band gap; photonic crystals; quantum dots; 3D lattice dielectric structure; 3D photonic crystals; amplification; defect layer; electromagnetic field interaction; electromagnetic radiation; internal electric field intensity; periodic cell; polarization currents; quantum-dot gain material inclusions; scattering characteristics; volume integral equations; Dielectrics; Electric fields; Electromagnetic scattering; Materials; Permittivity; Quantum dots; Three-dimensional displays;
Conference_Titel :
Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory (DIPED), 2013 XVIIIth International Seminar/Workshop on
Conference_Location :
Lviv
Print_ISBN :
978-966-02-6765-7
