Perturbed Multilayered Structures of Positive and Negative Index Materials
Document Type
Article
Publication Date
2-2010
Publication Source
Journal of the Optical Society of America B
Abstract
In this work, we study the influence of disorder on the omnidirectional bandgap in a one dimensional stack of alternating positive and dispersive negative index materials. We achieve this through using the transfer matrix method to study wave propagation properties. In the case where the number of periods becomes infinitely large, the limit of the transmittance is derived from the trace of the matrix, and thus reducing the calculation complexity. The origin of the transmission resonances and their relation with the field localization for random systems are analyzed and compared with that of the periodic case. Our result shows that the zero average refractive index bandgap is not affected by small disorders in layer thickness or refractive index, and thus the multilayer stack is robust against fabrication. The finding is expected to achieve potential applications in optoelectronic sensor devices such as omnidirectional reflectors in airplane radomes. We also show that a random mixture of positive and dispersive negative index materials in an equal ratio always possesses a zero average refractive index bandgap.
Inclusive pages
599-604
ISBN/ISSN
0030-3941
Copyright
Copyright © 2010, The Optical Society of America
Publisher
The Optical Society of America
Volume
27
Peer Reviewed
yes
Issue
3
eCommons Citation
Aylo, Rola; Banerjee, Partha P.; and Nehmetallah, George, "Perturbed Multilayered Structures of Positive and Negative Index Materials" (2010). Electrical and Computer Engineering Faculty Publications. 104.
https://ecommons.udayton.edu/ece_fac_pub/104
COinS
Comments
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