Nested formation mechanisms of Fano line shape in far-field response of coupled waveguide multilayer structure revealed by analyses of local electric fields

Based on electromagnetic calculations, the formation mechanism of the Fano line shape in the attenuated total reflection (far-field) spectrum of a coupled waveguide multilayer structure is studied in detail by tracing back to the behaviors of local electric fields. The Fano line shape of absorptance...

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Bibliographic Details
Published in:Journal of applied physics 2022-10, Vol.132 (16)
Main Authors: Hayashi, Shinji, Motokura, Kengo, Fujii, Minoru, Nesterenko, Dmitry V., Sekkat, Zouheir
Format: Article
Language:English
Subjects:
Absorptance
Absorption
Absorptivity
Applied physics
Doppler effect
Electric fields
Fano resonance
Far fields
Line shape
Multilayers
Signatures
Waveguides
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Summary:Based on electromagnetic calculations, the formation mechanism of the Fano line shape in the attenuated total reflection (far-field) spectrum of a coupled waveguide multilayer structure is studied in detail by tracing back to the behaviors of local electric fields. The Fano line shape of absorptance A directly related to the reflectance by R = 1 − A is shown to be generated by a superposition of a Fano line shape exhibited by local absorption in one of the waveguide layers and a Lorentzian line shape exhibited by local absorption in another waveguide layer. It is also shown that the Fano line shape of the first waveguide layer is generated by a superposition of different Fano line shapes exhibited by local electric fields at different positions inside the waveguide layer. These results unveil the nested mechanisms of the Fano line shape formation hidden in the behaviors of local electric fields. The Fano resonance inside the first waveguide layer is thought to be an example of the multiple Fano resonance arising from the interaction between multiple continua with a discrete state.
ISSN:0021-8979
1089-7550
DOI:10.1063/5.0097031