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Autori principali: Nyabere, Geofrey, Ellis, Hunter, Gomez, Miguel, Jia, Wei, Liu, Yizheng, Higley, Karli Ann, Krishnamoorthy, Sriram, Blair, Steve, Fu, Kai, Sensale-Rodriguez, Berardi
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2511.09811
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author Nyabere, Geofrey
Ellis, Hunter
Gomez, Miguel
Jia, Wei
Liu, Yizheng
Higley, Karli Ann
Krishnamoorthy, Sriram
Blair, Steve
Fu, Kai
Sensale-Rodriguez, Berardi
author_facet Nyabere, Geofrey
Ellis, Hunter
Gomez, Miguel
Jia, Wei
Liu, Yizheng
Higley, Karli Ann
Krishnamoorthy, Sriram
Blair, Steve
Fu, Kai
Sensale-Rodriguez, Berardi
contents Periodic metallic gratings on substrates can support a range of electromagnetic modes, such as leaky waveguide, guided-resonant, and Fabry-Perot (FP) cavity modes, which can strongly modulate optical transmission under resonant excitation. Here, we investigate how this coupling can be dynamically manipulated through charge-density control in a laterally patterned AlGaN/GaN heterostructure. The structure comprises metallic stripes separated by regions containing a two-dimensional electron gas (2DEG), forming a periodically modulated interface whose electromagnetic response is governed by the charge density between the stripes. In the unbiased state, the conductive 2DEG screens the incident terahertz field and suppresses excitation of guided modes. When the 2DEG is depleted, the change in boundary conditions allows efficient coupling into substrate resonances, producing a strong modulation at particular frequencies where extraordinary optical transmission (EOT) through the structure takes place. The results highlight the sensitive dependence of guided-mode-resonance (GMR) mediated EOT on inter-stripe charge distribution and demonstrate a direct interplay between carrier dynamics and resonant electromagnetic phenomena in the terahertz regime.
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institution arXiv
publishDate 2025
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spellingShingle Control of Extraordinary Optical Transmission in Resonant Terahertz Gratings via Lateral Depletion in an AlGaN-GaN Heterostructure
Nyabere, Geofrey
Ellis, Hunter
Gomez, Miguel
Jia, Wei
Liu, Yizheng
Higley, Karli Ann
Krishnamoorthy, Sriram
Blair, Steve
Fu, Kai
Sensale-Rodriguez, Berardi
Materials Science
Periodic metallic gratings on substrates can support a range of electromagnetic modes, such as leaky waveguide, guided-resonant, and Fabry-Perot (FP) cavity modes, which can strongly modulate optical transmission under resonant excitation. Here, we investigate how this coupling can be dynamically manipulated through charge-density control in a laterally patterned AlGaN/GaN heterostructure. The structure comprises metallic stripes separated by regions containing a two-dimensional electron gas (2DEG), forming a periodically modulated interface whose electromagnetic response is governed by the charge density between the stripes. In the unbiased state, the conductive 2DEG screens the incident terahertz field and suppresses excitation of guided modes. When the 2DEG is depleted, the change in boundary conditions allows efficient coupling into substrate resonances, producing a strong modulation at particular frequencies where extraordinary optical transmission (EOT) through the structure takes place. The results highlight the sensitive dependence of guided-mode-resonance (GMR) mediated EOT on inter-stripe charge distribution and demonstrate a direct interplay between carrier dynamics and resonant electromagnetic phenomena in the terahertz regime.
title Control of Extraordinary Optical Transmission in Resonant Terahertz Gratings via Lateral Depletion in an AlGaN-GaN Heterostructure
topic Materials Science
url https://arxiv.org/abs/2511.09811