Exceptional points and spectral singularities in active epsilon-near-zero plasmonic waveguides
Ying Li, Christos Argyropoulos

TL;DR
This paper introduces an active plasmonic waveguide system that exhibits exceptional points and spectral singularities, enabling novel functionalities like reflectionless transmission, loss compensation, and lasing at nanoscale with low gain.
Contribution
The study demonstrates the realization of exceptional points and spectral singularities in a symmetric active ENZ plasmonic system at low gain coefficients, with potential applications in nanophotonics.
Findings
Achieved reflectionless ENZ transmission at the exceptional point
Observed super scattering and lasing at spectral singularities
Enabled low-gain, subwavelength active ENZ nanophotonic devices
Abstract
We present a nanoscale active plasmonic waveguide system consisting of an array of periodic slits that can exhibit exceptional points and spectral singularities leading to several novel functionalities. The proposed symmetric active system operates near its cut-off wavelength and behaves as an effective epsilon-near-zero (ENZ) medium. We demonstrate the formation of an exceptional point (EP) that is accessed with very low gain coefficient values, a unique feature of the proposed nanoscale symmetric plasmonic configuration. Reflectionless ENZ transmission and perfect loss-compensation are realized at the EP which coincides with the effective ENZ resonance wavelength of the proposed array of active plasmonic waveguides. When we further increase the gain coefficient of the dielectric material loaded in the slits, a spectral singularity occurs at the ENZ resonance leading to super…
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