Combining ϵ-Near-Zero Behavior and Stopped Light Energy Bands for Ultra-Low Reflection and Reduced Dispersion of Slow Light
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Bello, F. and Page, A.F. and Pusch, A. and Hamm, J.M. and Donegan, J.F. and Hess, O., Combining ϵ-Near-Zero Behavior and Stopped Light Energy Bands for Ultra-Low Reflection and Reduced Dispersion of Slow Light, Scientific Reports, 7, 1, 2017
Abstract
We investigate media which exhibits epsilon-near-zero (ENZ) behavior while simultaneously sustaining
stopped light energy bands which contain multiple points of zero group velocity (ZGV). This allows
the merging of state-of-the-art phenomena that was hitherto attainable in media that demonstrated
these traits separately. Specifically, we demonstrate the existence of Ferrell-Berreman (FB) modes
within frequency bands bounded by points of ZGV with the goal to improve the coupling efficiency and
localization of light in the media. The FB mode is formed within a double layer, thin-film stack where at
subwavelength thicknesses the structure exhibits a very low reflection due to ENZ behavior. In addition,
the structure is engineered to promote a flattened frequency dispersion with a negative permittivity
able to induce multiple points of ZGV. For proof-of-concept, we propose an oxide-semiconductor-oxide-
insulator stack and discuss the useful optical properties that arise from combining both phenomena. A
transfer matrix (TM) treatment is used to derive the reflectivity profile and dispersion curves. Results
show the ability to reduce reflection below 0.05% in accordance with recent experimental data while
simultaneously exciting a polariton mode exhibiting both reduced group velocity and group velocity
dispersion (GVD
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Author's Homepage: http://people.tcd.ie/jdonegan
Type of material: Journal Article

