Simulation of scanning near-field optical microscopy spectra of 1D plasmonic graphene junctions

Vyacheslav Semenenko; Mengkun Liu; Vasili Perebeinos

doi:10.1364/OE.450323

Simulation of scanning near-field optical microscopy spectra of 1D plasmonic graphene junctions

Vyacheslav Semenenko
, Mengkun Liu
, Vasili Perebeinos

Department of Electrical Engineering

SUNY Buffalo
Stony Brook University

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

2 Scopus citations

Abstract

We present numerical simulations of scattering-type scanning near-field optical microscopy (s-SNOM) of 1D plasmonic graphene junctions. A comprehensive analysis of simulated s-SNOM spectra is performed for three types of junctions. We find conditions when the conventional interpretation of the plasmon reflection coefficients from s-SNOM measurements does not apply. Our approach can be used for other conducting 2D materials to provide a comprehensive understanding of the s-SNOM techniques for probing the local transport properties of 2D materials.

Original language	English
Pages (from-to)	9000-9007
Number of pages	8
Journal	Optics Express
Volume	30
Issue number	6
DOIs	https://doi.org/10.1364/OE.450323
State	Published - Mar 14 2022

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10.1364/OE.450323

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title = "Simulation of scanning near-field optical microscopy spectra of 1D plasmonic graphene junctions",

abstract = "We present numerical simulations of scattering-type scanning near-field optical microscopy (s-SNOM) of 1D plasmonic graphene junctions. A comprehensive analysis of simulated s-SNOM spectra is performed for three types of junctions. We find conditions when the conventional interpretation of the plasmon reflection coefficients from s-SNOM measurements does not apply. Our approach can be used for other conducting 2D materials to provide a comprehensive understanding of the s-SNOM techniques for probing the local transport properties of 2D materials.",

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AU - Perebeinos, Vasili

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Y1 - 2022/3/14

N2 - We present numerical simulations of scattering-type scanning near-field optical microscopy (s-SNOM) of 1D plasmonic graphene junctions. A comprehensive analysis of simulated s-SNOM spectra is performed for three types of junctions. We find conditions when the conventional interpretation of the plasmon reflection coefficients from s-SNOM measurements does not apply. Our approach can be used for other conducting 2D materials to provide a comprehensive understanding of the s-SNOM techniques for probing the local transport properties of 2D materials.

AB - We present numerical simulations of scattering-type scanning near-field optical microscopy (s-SNOM) of 1D plasmonic graphene junctions. A comprehensive analysis of simulated s-SNOM spectra is performed for three types of junctions. We find conditions when the conventional interpretation of the plasmon reflection coefficients from s-SNOM measurements does not apply. Our approach can be used for other conducting 2D materials to provide a comprehensive understanding of the s-SNOM techniques for probing the local transport properties of 2D materials.

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Simulation of scanning near-field optical microscopy spectra of 1D plasmonic graphene junctions

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Simulation of scanning near-field optical microscopy spectra of 1D plasmonic graphene junctions

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