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Highly Amplified Light Transmission in Parity-Time Symmetric Multilayered Structure

We propose a parity-time symmetric dielectric-nanofilm-dielectric multilayered structure that could facilitate highly amplified transmission of optical power in the infrared spectrum. We have theoretically studied our model using the transfer matrix formalism. The reflection and the transmission coe...

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Published in:arXiv.org 2018-01
Main Authors: Jyoti Prasad Deka, Sarma, Amarendra K
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description We propose a parity-time symmetric dielectric-nanofilm-dielectric multilayered structure that could facilitate highly amplified transmission of optical power in the infrared spectrum. We have theoretically studied our model using the transfer matrix formalism. The reflection and the transmission coefficients of the S-matrix are evaluated. The theoretical results are validated by FDTD numerical simulation. We have shown how the thickness of the layers and the gain/loss coefficient of the active layers could generate spectral singularities in the S-matrix and how these singularities could be exploited to achieve amplified transmission of a single wavelength through the structure.
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subjects Amplification
Computer simulation
Infrared radiation
Light transmission
Mathematical models
Parity
Singularities
Thickness
title Highly Amplified Light Transmission in Parity-Time Symmetric Multilayered Structure
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