Prof. Dr. Saeed El-Sayed Abdel Ghany El-Sayed|Publications:Transmission and Temperature Sensing Characteristics of a Binary and Ternary Photonic Band Gap

You are in:Home/Publications/Transmission and Temperature Sensing Characteristics of a Binary and Ternary Photonic Band Gap
Prof. Prof. Dr. Saeed El-Sayed Abdel Ghany El-Sayed :: Publications:

Title:	Transmission and Temperature Sensing Characteristics of a Binary and Ternary Photonic Band Gap
Authors:	Arafa. H. Aly; S. E.-S. Abdel Ghany; M. M. Fadlallah; F. E. Salman; B. M. Kama
Year:	2015
Keywords:	Photonic Band Gap;Transfer Matrix Method; Thermo-Optical; Transmission.
Journal:	Journal of Nanoelectronics and Optoelectronics
Volume:	10, , 2015
Issue:	Not Available
Pages:	1–6
Publisher:	Copyright © 2015 American Scientific Publishers
Local/International:	International
Paper Link:	Not Available
Full paper	Not Available
Supplementary materials	Not Available

Abstract:

In this paper, based on the transfer matrix method, the transmission properties in the infrared (IR) region for one-dimensional binary and ternary photonic crystals under the effect of temperature variations have been theoretically studied. Both thermal expansion effect and thermo-optical effect are considered simultaneously. The numerical results show that the photonic band gap can be significantly enlarged compared to the photonic band gap at room temperature. Furthermore, the calculated transmission characteristics in the wavelength domain demonstrate that, ternary structure has a significant effect in the width of the photonic band gap compared to the usual binary photonic crystals. The roles played by the related parameters, such as the thickness of the constituent materials will be discussed and illustrated.

Prof. Prof. Dr. Saeed El-Sayed Abdel Ghany El-Sayed :: Publications: