Switching between topological edge states in plasmonic systems using phase-change materials

Yin Huang; Yuecheng Shen; Georgios Veronis

doi:10.1364/OE.476648

Switching between topological edge states in plasmonic systems using phase-change materials

Yin Huang^*
, Yuecheng Shen
, Georgios Veronis

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

We introduce non-Hermitian plasmonic waveguide-cavity structures based on the Aubry-Andre-Harper model to realize switching between right and left topological edge states (TESs) using the phase-change material Ge₂Sb₂Te₅ (GST). We show that switching between the crystalline and amorphous phases of GST leads to a shift of the dispersion relation of the optimized structure so that a right TES for the crystalline phase, and a left TES for the amorphous phase occur at the same frequency. Thus, we realize switching between right and left TESs at that frequency by switching between the crystalline and amorphous phases of GST. Our results could be potentially important for developing compact reconfigurable topological photonic devices.

Original language	English
Pages (from-to)	44594-44603
Number of pages	10
Journal	Optics Express
Volume	30
Issue number	25
DOIs	https://doi.org/10.1364/OE.476648
State	Published - 5 Dec 2022
Externally published	Yes

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title = "Switching between topological edge states in plasmonic systems using phase-change materials",

abstract = "We introduce non-Hermitian plasmonic waveguide-cavity structures based on the Aubry-Andre-Harper model to realize switching between right and left topological edge states (TESs) using the phase-change material Ge2Sb2Te5 (GST). We show that switching between the crystalline and amorphous phases of GST leads to a shift of the dispersion relation of the optimized structure so that a right TES for the crystalline phase, and a left TES for the amorphous phase occur at the same frequency. Thus, we realize switching between right and left TESs at that frequency by switching between the crystalline and amorphous phases of GST. Our results could be potentially important for developing compact reconfigurable topological photonic devices.",

author = "Yin Huang and Yuecheng Shen and Georgios Veronis",

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T1 - Switching between topological edge states in plasmonic systems using phase-change materials

AU - Huang, Yin

AU - Shen, Yuecheng

AU - Veronis, Georgios

PY - 2022/12/5

Y1 - 2022/12/5

N2 - We introduce non-Hermitian plasmonic waveguide-cavity structures based on the Aubry-Andre-Harper model to realize switching between right and left topological edge states (TESs) using the phase-change material Ge2Sb2Te5 (GST). We show that switching between the crystalline and amorphous phases of GST leads to a shift of the dispersion relation of the optimized structure so that a right TES for the crystalline phase, and a left TES for the amorphous phase occur at the same frequency. Thus, we realize switching between right and left TESs at that frequency by switching between the crystalline and amorphous phases of GST. Our results could be potentially important for developing compact reconfigurable topological photonic devices.

AB - We introduce non-Hermitian plasmonic waveguide-cavity structures based on the Aubry-Andre-Harper model to realize switching between right and left topological edge states (TESs) using the phase-change material Ge2Sb2Te5 (GST). We show that switching between the crystalline and amorphous phases of GST leads to a shift of the dispersion relation of the optimized structure so that a right TES for the crystalline phase, and a left TES for the amorphous phase occur at the same frequency. Thus, we realize switching between right and left TESs at that frequency by switching between the crystalline and amorphous phases of GST. Our results could be potentially important for developing compact reconfigurable topological photonic devices.

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JO - Optics Express

JF - Optics Express

IS - 25

ER -

Switching between topological edge states in plasmonic systems using phase-change materials

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